Started by GitHub push by TidbitSoftware Running as SYSTEM Building remotely on macOS-Intel (mac) in workspace /Users/jenkins/workspace/macOS-Intel-Examples The recommended git tool is: NONE using credential 3c85c82b-fb35-4fea-b703-0aa4f155f9c7 > git rev-parse --resolve-git-dir /Users/jenkins/workspace/macOS-Intel-Examples/.git # timeout=10 Fetching changes from the remote Git repository > git config remote.origin.url git@github.com:ISSMteam/ISSM.git # timeout=10 Fetching upstream changes from git@github.com:ISSMteam/ISSM.git > git --version # timeout=10 > git --version # 'git version 2.37.1 (Apple Git-137.1)' using GIT_SSH to set credentials GitHub Deploy Key - ISSMteam/ISSM - Jenkins Verifying host key using known hosts file > git fetch --tags --force --progress -- git@github.com:ISSMteam/ISSM.git +refs/heads/*:refs/remotes/origin/* # timeout=10 > git rev-parse refs/remotes/origin/main^{commit} # timeout=10 Checking out Revision bf3a691db1f61a9274ad17ba5f9fe3e015b8e484 (refs/remotes/origin/main) > git config core.sparsecheckout # timeout=10 > git checkout -f bf3a691db1f61a9274ad17ba5f9fe3e015b8e484 # timeout=10 Commit message: "BUG: CXXFLAGS is not empty by default under clang" > git rev-list --no-walk 09fe5aad086d93bf5fa72fba3f9d1f97f55214a1 # timeout=10 [macOS-Intel-Examples] $ /bin/bash /var/folders/j6/3xhtbkbs3kj24wm4s4s4b99w0000gp/T/jenkins3643427019316364889.sh Cleaning up execution directory ====================================================== Determining installation type ====================================================== List of changed files --------------------- jenkins/mac-intel-basic m4/issm_options.m4 src/c/Makefile.am -- checking for changed externalpackages... no -- checking for reconfiguration... yes -- checking for recompilation... yes ====================================================== Skipping autotools ====================================================== ====================================================== Skipping 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semic ====================================================== ====================================================== Skipping shell2junit ====================================================== ====================================================== Cleaning up and reconfiguring ====================================================== CDPATH="${ZSH_VERSION+.}:" && cd . && /bin/sh /Users/jenkins/workspace/macOS-Intel-Examples/aux-config/missing aclocal-1.16 -I m4 cd . && /bin/sh /Users/jenkins/workspace/macOS-Intel-Examples/aux-config/missing automake-1.16 --foreign CDPATH="${ZSH_VERSION+.}:" && cd . && /bin/sh /Users/jenkins/workspace/macOS-Intel-Examples/aux-config/missing autoconf /bin/sh ./config.status --recheck running CONFIG_SHELL=/bin/sh /bin/sh ./configure --prefix=/Users/jenkins/workspace/macOS-Intel-Examples --disable-static --enable-development --enable-debugging --with-numthreads=4 --with-matlab-dir=/Applications/MATLAB_R2023b.app --with-fortran-lib=-L/usr/local/Cellar/gcc/13.2.0/lib/gcc/current -lgfortran --with-mpi-include=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include --with-mpi-libflags=-L/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/lib -lmpi -lmpicxx -lmpifort --with-blas-lapack-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install --with-metis-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install --with-parmetis-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install --with-scalapack-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install --with-mumps-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install --with-hdf5-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/hdf5/install --with-petsc-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install --with-gsl-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/gsl/install --with-boost-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/boost/install --with-dakota-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install --with-chaco-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/chaco/install --with-proj-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/proj/install --with-triangle-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/triangle/install --with-m1qn3-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/m1qn3/install --with-semic-dir=/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/semic/install LDFLAGS= --no-create --no-recursion configure: ============================================================================ configure: = Ice-sheet and Sea-level System Model (ISSM) 4.24 configuration = configure: 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Tue Jul 30 21:23:48 PDT 2024 checking user name... jenkins checking host full OS name and version... darwin21.6.0 checking host cpu... x86_64 checking vendor... apple checking host OS name... darwin21 checking host OS version... 21.6.0 checking host OS architecture... x86_64 checking for debugging support... yes checking for development support... yes checking for standalone modules build... no checking for standalone executables build... no checking for standalone libraries build... no checking for wrappers compilation... yes checking operating system type... macOS checking if system copy of libc has fmemopen (macOS-only check)... yes checking for MATLAB... yes checking MATLAB's mex compilation flags... done checking for JavaScript... no checking for triangle... yes checking for Boost... yes checking for Boost version... 1.73 checking for Dakota... yes checking for Dakota version... 6.2 checking for Dakota major version... 6 checking for Dakota minor version... 2 checking for Dakota 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libtool commands Making uninstall in src Making uninstall in c ( cd '/Users/jenkins/workspace/macOS-Intel-Examples/bin' && rm -f issm.exe issm_slc.exe kriging.exe issm_dakota.exe issm_post.exe ) /bin/sh ../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMCore.la' /bin/sh ../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMOverload.la' /bin/sh ../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMModules.la' Making uninstall in m Making uninstall in wrappers Making uninstall in matlab /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMMatlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMApi.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/BamgConvertMesh_matlab.la' /bin/sh ../../../libtool 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'/Users/jenkins/workspace/macOS-Intel-Examples/lib/MeshPartition_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/MeshProfileIntersection_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/NodeConnectivity_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/PointCloudFindNeighbors_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/ProcessRifts_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/PropagateFlagsFromConnectivity_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/Scotch_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/Triangle_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/Chaco_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/Kriging_matlab.la' /bin/sh ../../../libtool --mode=uninstall rm -f '/Users/jenkins/workspace/macOS-Intel-Examples/lib/CoordTransform_matlab.la' make[3]: Nothing to be done for `uninstall-am'. make[2]: Nothing to be done for `uninstall-am'. make[1]: Nothing to be done for `uninstall-am'. Making distclean in src Making distclean in c rm -f issm.exe issm_slc.exe kriging.exe issm_dakota.exe issm_post.exe rm -f issm issm_slc kriging issm_dakota issm_post test -z "libISSMCore.la libISSMOverload.la libISSMModules.la" || rm -f libISSMCore.la libISSMOverload.la libISSMModules.la rm -f ./so_locations rm -rf .libs _libs rm -rf ./analyses/.libs ./analyses/_libs rm -rf ./bamg/.libs ./bamg/_libs rm -rf ./classes/.libs ./classes/_libs rm -rf ./classes/Constraints/.libs ./classes/Constraints/_libs rm -rf ./classes/Dakota/.libs ./classes/Dakota/_libs rm -rf ./classes/Elements/.libs ./classes/Elements/_libs rm -rf ./classes/ExternalResults/.libs ./classes/ExternalResults/_libs rm -rf ./classes/Inputs/.libs ./classes/Inputs/_libs rm -rf ./classes/Loads/.libs ./classes/Loads/_libs rm -rf ./classes/Materials/.libs ./classes/Materials/_libs rm -rf ./classes/Options/.libs ./classes/Options/_libs rm -rf ./classes/Params/.libs ./classes/Params/_libs rm -rf ./classes/gauss/.libs 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./shared/io/Disk/.deps/libISSMCore_la-pfopen.Plo rm -f ./shared/io/Marshalling/.deps/libISSMCore_la-IoCodeConversions.Plo rm -f ./shared/io/Marshalling/.deps/libISSMCore_la-Marshalling.Plo rm -f ./shared/io/Print/.deps/libISSMCore_la-PrintfFunction.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-convergence.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_adjoint_linear.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_fct.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_glads_nonlinear.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_hydro_nonlinear.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_la.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_la_theta.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_linear.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_newton.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_nonlinear.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_sampling.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_schurcg.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_shakti_nonlinear.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_stokescoupling_nonlinear.Plo rm -f ./solutionsequences/.deps/libISSMCore_la-solutionsequence_thermal_nonlinear.Plo rm -f ./toolkits/.deps/libISSMCore_la-ToolkitOptions.Plo rm -f ./toolkits/codipack/.deps/libISSMCore_la-CoDiPackGlobal.Plo rm -f ./toolkits/codipack/.deps/libISSMCore_la-ampi_interface.Plo rm -f ./toolkits/gsl/.deps/libISSMCore_la-DenseGslSolve.Plo rm -f ./toolkits/issm/.deps/libISSMCore_la-IssmSolver.Plo rm -f ./toolkits/issm/.deps/libISSMCore_la-IssmToolkitUtils.Plo rm -f ./toolkits/metis/patches/.deps/libISSMCore_la-METIS_PartMeshNodalPatch.Plo rm -f ./toolkits/mpi/.deps/libISSMCore_la-issmmpi.Plo rm -f ./toolkits/mpi/commops/.deps/libISSMCore_la-DetermineGlobalSize.Plo rm -f ./toolkits/mpi/commops/.deps/libISSMCore_la-DetermineLocalSize.Plo rm -f ./toolkits/mpi/commops/.deps/libISSMCore_la-DetermineRowRankFromLocalSize.Plo rm -f ./toolkits/mpi/commops/.deps/libISSMCore_la-GetOwnershipBoundariesFromRange.Plo rm -f ./toolkits/mumps/.deps/libISSMCore_la-MumpsSolve.Plo rm -f ./toolkits/petsc/objects/.deps/libISSMCore_la-PetscMat.Plo rm -f ./toolkits/petsc/objects/.deps/libISSMCore_la-PetscSolver.Plo rm -f ./toolkits/petsc/objects/.deps/libISSMCore_la-PetscVec.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-ISSMToPetscInsertMode.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-ISSMToPetscMatrixType.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-ISSMToPetscNormMode.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-KSPFree.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-MatFree.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-MatMultPatch.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-MatToMPISerial.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-NewMat.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-NewVec.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-PetscOptionsDetermineSolverType.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-VecFree.Plo rm -f ./toolkits/petsc/patches/.deps/libISSMCore_la-VecToMPISerial.Plo rm -f main/.deps/issm-issm.Po rm -f main/.deps/issm_dakota-issm_dakota.Po rm -f main/.deps/issm_ocean-issm_ocean.Po rm -f main/.deps/issm_post-issm_post.Po rm -f main/.deps/issm_slc-issm_slc.Po rm -f main/.deps/kriging-kriging.Po rm -f Makefile Making distclean in m rm -rf .libs _libs rm -f *.lo test -z "" || rm -f test . = "." || test -z "" || rm -f rm -f Makefile Making distclean in wrappers Making distclean in matlab test -z "libISSMMatlab.la libISSMApi.la BamgConvertMesh_matlab.la BamgMesher_matlab.la BamgTriangulate_matlab.la ContourToMesh_matlab.la ContourToNodes_matlab.la DistanceToMaskBoundary_matlab.la ElementConnectivity_matlab.la ExpSimplify_matlab.la ExpToLevelSet_matlab.la InterpFromGridToMesh_matlab.la InterpFromMesh2d_matlab.la InterpFromMeshToGrid_matlab.la InterpFromMeshToMesh2d_matlab.la InterpFromMeshToMesh3d_matlab.la IssmConfig_matlab.la M1qn3_matlab.la MeshPartition_matlab.la MeshProfileIntersection_matlab.la NodeConnectivity_matlab.la PointCloudFindNeighbors_matlab.la ProcessRifts_matlab.la PropagateFlagsFromConnectivity_matlab.la Scotch_matlab.la Triangle_matlab.la Chaco_matlab.la Kriging_matlab.la CoordTransform_matlab.la" || rm -f libISSMMatlab.la libISSMApi.la BamgConvertMesh_matlab.la BamgMesher_matlab.la BamgTriangulate_matlab.la ContourToMesh_matlab.la ContourToNodes_matlab.la DistanceToMaskBoundary_matlab.la ElementConnectivity_matlab.la ExpSimplify_matlab.la ExpToLevelSet_matlab.la InterpFromGridToMesh_matlab.la InterpFromMesh2d_matlab.la InterpFromMeshToGrid_matlab.la InterpFromMeshToMesh2d_matlab.la InterpFromMeshToMesh3d_matlab.la IssmConfig_matlab.la M1qn3_matlab.la MeshPartition_matlab.la MeshProfileIntersection_matlab.la NodeConnectivity_matlab.la PointCloudFindNeighbors_matlab.la ProcessRifts_matlab.la PropagateFlagsFromConnectivity_matlab.la Scotch_matlab.la Triangle_matlab.la Chaco_matlab.la Kriging_matlab.la CoordTransform_matlab.la rm -f ./so_locations rm -rf .libs _libs rm -rf ../BamgConvertMesh/.libs ../BamgConvertMesh/_libs rm -rf ../BamgMesher/.libs ../BamgMesher/_libs rm -rf ../BamgTriangulate/.libs ../BamgTriangulate/_libs rm -rf ../Chaco/.libs ../Chaco/_libs rm -rf ../ContourToMesh/.libs ../ContourToMesh/_libs rm -rf ../ContourToNodes/.libs ../ContourToNodes/_libs rm -rf ../CoordTransform/.libs ../CoordTransform/_libs rm -rf ../DistanceToMaskBoundary/.libs ../DistanceToMaskBoundary/_libs rm -rf ../ElementConnectivity/.libs ../ElementConnectivity/_libs rm -rf ../ExpSimplify/.libs ../ExpSimplify/_libs rm -rf ../ExpToLevelSet/.libs ../ExpToLevelSet/_libs rm -rf ../InterpFromGridToMesh/.libs ../InterpFromGridToMesh/_libs rm -rf ../InterpFromMesh2d/.libs ../InterpFromMesh2d/_libs rm -rf ../InterpFromMeshToGrid/.libs ../InterpFromMeshToGrid/_libs rm -rf ../InterpFromMeshToMesh2d/.libs ../InterpFromMeshToMesh2d/_libs rm -rf ../InterpFromMeshToMesh3d/.libs ../InterpFromMeshToMesh3d/_libs rm -rf ../IssmConfig/.libs ../IssmConfig/_libs rm -rf ../Kriging/.libs ../Kriging/_libs rm -rf ../M1qn3/.libs ../M1qn3/_libs rm -rf ../MeshPartition/.libs ../MeshPartition/_libs rm -rf ../MeshProfileIntersection/.libs ../MeshProfileIntersection/_libs rm -rf ../NodeConnectivity/.libs ../NodeConnectivity/_libs rm -rf ../PointCloudFindNeighbors/.libs ../PointCloudFindNeighbors/_libs rm -rf ../ProcessRifts/.libs ../ProcessRifts/_libs rm -rf ../PropagateFlagsFromConnectivity/.libs ../PropagateFlagsFromConnectivity/_libs rm -rf ../Scotch/.libs ../Scotch/_libs rm -rf ../ShpRead/.libs ../ShpRead/_libs rm -rf ../Triangle/.libs ../Triangle/_libs rm -rf ./io/.libs ./io/_libs rm -f *.o rm -f ../BamgConvertMesh/*.o rm -f ../BamgConvertMesh/*.lo rm -f ../BamgMesher/*.o rm -f ../BamgMesher/*.lo rm -f ../BamgTriangulate/*.o rm -f ../BamgTriangulate/*.lo rm -f ../Chaco/*.o rm -f ../Chaco/*.lo rm -f ../ContourToMesh/*.o rm -f ../ContourToMesh/*.lo rm -f ../ContourToNodes/*.o rm -f ../ContourToNodes/*.lo rm -f ../CoordTransform/*.o rm -f ../CoordTransform/*.lo rm -f ../DistanceToMaskBoundary/*.o rm -f ../DistanceToMaskBoundary/*.lo rm -f ../ElementConnectivity/*.o rm -f ../ElementConnectivity/*.lo rm -f ../ExpSimplify/*.o rm -f ../ExpSimplify/*.lo rm -f ../ExpToLevelSet/*.o rm -f ../ExpToLevelSet/*.lo rm -f ../InterpFromGridToMesh/*.o rm -f ../InterpFromGridToMesh/*.lo rm -f ../InterpFromMesh2d/*.o rm -f ../InterpFromMesh2d/*.lo rm -f ../InterpFromMeshToGrid/*.o rm -f ../InterpFromMeshToGrid/*.lo rm -f ../InterpFromMeshToMesh2d/*.o rm -f ../InterpFromMeshToMesh2d/*.lo rm -f ../InterpFromMeshToMesh3d/*.o rm -f ../InterpFromMeshToMesh3d/*.lo rm -f ../IssmConfig/*.o rm -f ../IssmConfig/*.lo rm -f ../Kriging/*.o rm -f ../Kriging/*.lo rm -f ../M1qn3/*.o rm -f ../M1qn3/*.lo rm -f ../MeshPartition/*.o rm -f ../MeshPartition/*.lo rm -f ../MeshProfileIntersection/*.o rm -f ../MeshProfileIntersection/*.lo rm -f ../NodeConnectivity/*.o rm -f ../NodeConnectivity/*.lo rm -f ../PointCloudFindNeighbors/*.o rm -f ../PointCloudFindNeighbors/*.lo rm -f ../ProcessRifts/*.o rm -f ../ProcessRifts/*.lo rm -f ../PropagateFlagsFromConnectivity/*.o rm -f ../PropagateFlagsFromConnectivity/*.lo rm -f ../Scotch/*.o rm -f ../Scotch/*.lo rm -f ../ShpRead/*.o rm -f ../ShpRead/*.lo rm -f ../Triangle/*.o rm -f ../Triangle/*.lo rm -f ./io/*.o rm -f ./io/*.lo rm -f *.lo rm -f *.tab.c test -z "" || rm -f test . = "." || test -z "" || rm -f rm -f ../BamgConvertMesh/.deps/.dirstamp rm -f ../BamgConvertMesh/.dirstamp rm -f ../BamgMesher/.deps/.dirstamp rm -f ../BamgMesher/.dirstamp rm -f ../BamgTriangulate/.deps/.dirstamp rm -f ../BamgTriangulate/.dirstamp rm -f ../Chaco/.deps/.dirstamp rm -f ../Chaco/.dirstamp rm -f ../ContourToMesh/.deps/.dirstamp rm -f ../ContourToMesh/.dirstamp rm -f ../ContourToNodes/.deps/.dirstamp rm -f ../ContourToNodes/.dirstamp rm -f ../CoordTransform/.deps/.dirstamp rm -f ../CoordTransform/.dirstamp rm -f ../DistanceToMaskBoundary/.deps/.dirstamp rm -f ../DistanceToMaskBoundary/.dirstamp rm -f ../ElementConnectivity/.deps/.dirstamp rm -f ../ElementConnectivity/.dirstamp rm -f ../ExpSimplify/.deps/.dirstamp rm -f ../ExpSimplify/.dirstamp rm -f ../ExpToLevelSet/.deps/.dirstamp rm -f ../ExpToLevelSet/.dirstamp rm -f ../InterpFromGridToMesh/.deps/.dirstamp rm -f ../InterpFromGridToMesh/.dirstamp rm -f ../InterpFromMesh2d/.deps/.dirstamp rm -f ../InterpFromMesh2d/.dirstamp rm -f ../InterpFromMeshToGrid/.deps/.dirstamp rm -f ../InterpFromMeshToGrid/.dirstamp rm -f ../InterpFromMeshToMesh2d/.deps/.dirstamp rm -f ../InterpFromMeshToMesh2d/.dirstamp rm -f ../InterpFromMeshToMesh3d/.deps/.dirstamp rm -f ../InterpFromMeshToMesh3d/.dirstamp rm -f ../IssmConfig/.deps/.dirstamp rm -f ../IssmConfig/.dirstamp rm -f ../Kriging/.deps/.dirstamp rm -f ../Kriging/.dirstamp rm -f ../M1qn3/.deps/.dirstamp rm -f ../M1qn3/.dirstamp rm -f ../MeshPartition/.deps/.dirstamp rm -f ../MeshPartition/.dirstamp rm -f ../MeshProfileIntersection/.deps/.dirstamp rm -f ../MeshProfileIntersection/.dirstamp rm -f ../NodeConnectivity/.deps/.dirstamp rm -f ../NodeConnectivity/.dirstamp rm -f ../PointCloudFindNeighbors/.deps/.dirstamp rm -f ../PointCloudFindNeighbors/.dirstamp rm -f ../ProcessRifts/.deps/.dirstamp rm -f ../ProcessRifts/.dirstamp rm -f ../PropagateFlagsFromConnectivity/.deps/.dirstamp rm -f ../PropagateFlagsFromConnectivity/.dirstamp rm -f ../Scotch/.deps/.dirstamp rm -f ../Scotch/.dirstamp rm -f ../ShpRead/.deps/.dirstamp rm -f ../ShpRead/.dirstamp rm -f ../Triangle/.deps/.dirstamp rm -f ../Triangle/.dirstamp rm -f io/.deps/.dirstamp rm -f io/.dirstamp rm -f TAGS ID GTAGS GRTAGS GSYMS GPATH tags rm -f ../BamgConvertMesh/.deps/BamgConvertMesh.Plo rm -f ../BamgMesher/.deps/BamgMesher.Plo rm -f ../BamgTriangulate/.deps/BamgTriangulate.Plo rm -f ../Chaco/.deps/Chaco.Plo rm -f ../ContourToMesh/.deps/ContourToMesh.Plo rm -f ../ContourToNodes/.deps/ContourToNodes.Plo rm -f ../CoordTransform/.deps/CoordTransform.Plo rm -f ../DistanceToMaskBoundary/.deps/DistanceToMaskBoundary.Plo rm -f ../ElementConnectivity/.deps/ElementConnectivity.Plo rm -f ../ExpSimplify/.deps/ExpSimplify.Plo rm -f ../ExpToLevelSet/.deps/ExpToLevelSet.Plo rm -f ../InterpFromGridToMesh/.deps/InterpFromGridToMesh.Plo rm -f ../InterpFromMesh2d/.deps/InterpFromMesh2d.Plo rm -f ../InterpFromMeshToGrid/.deps/InterpFromMeshToGrid.Plo rm -f ../InterpFromMeshToMesh2d/.deps/InterpFromMeshToMesh2d.Plo rm -f ../InterpFromMeshToMesh3d/.deps/InterpFromMeshToMesh3d.Plo rm -f ../IssmConfig/.deps/IssmConfig.Plo rm -f ../Kriging/.deps/Kriging.Plo rm -f ../M1qn3/.deps/M1qn3.Plo rm -f ../MeshPartition/.deps/MeshPartition.Plo rm -f ../MeshProfileIntersection/.deps/MeshProfileIntersection.Plo rm -f ../NodeConnectivity/.deps/NodeConnectivity.Plo rm -f ../PointCloudFindNeighbors/.deps/PointCloudFindNeighbors.Plo rm -f ../ProcessRifts/.deps/ProcessRifts.Plo rm -f ../PropagateFlagsFromConnectivity/.deps/PropagateFlagsFromConnectivity.Plo rm -f ../Scotch/.deps/Scotch.Plo rm -f ../ShpRead/.deps/ShpRead.Plo rm -f ../Triangle/.deps/Triangle.Plo rm -f ./io/.deps/libISSMApi_la-ApiPrintf.Plo rm -f ./io/.deps/libISSMMatlab_la-CheckNumMatlabArguments.Plo rm -f ./io/.deps/libISSMMatlab_la-FetchMatlabData.Plo rm -f ./io/.deps/libISSMMatlab_la-WriteMatlabData.Plo rm -f Makefile Making distclean in javascript rm -f IssmModule.js rm -f IssmModule test -z "libISSMJavascript.la libISSMApi.la" || rm -f libISSMJavascript.la libISSMApi.la rm -f ./so_locations rm -rf .libs _libs rm -rf ./io/.libs ./io/_libs rm -f *.o rm -f ../BamgMesher/*.o rm -f ../ContourToMesh/*.o rm -f ../ElementConnectivity/*.o rm -f ../InterpFromGridToMesh/*.o rm -f ../InterpFromMeshToMesh2d/*.o rm -f ../Issm/*.o rm -f ../IssmConfig/*.o rm -f ../NodeConnectivity/*.o rm -f ../Triangle/*.o rm -f ./io/*.o rm -f ./io/*.lo rm -f *.lo rm -f *.tab.c test -z "" || rm -f test . = "." || test -z "" || rm -f rm -f ../BamgMesher/.deps/.dirstamp rm -f ../BamgMesher/.dirstamp rm -f ../ContourToMesh/.deps/.dirstamp rm -f ../ContourToMesh/.dirstamp rm -f ../ElementConnectivity/.deps/.dirstamp rm -f ../ElementConnectivity/.dirstamp rm -f ../InterpFromGridToMesh/.deps/.dirstamp rm -f ../InterpFromGridToMesh/.dirstamp rm -f ../InterpFromMeshToMesh2d/.deps/.dirstamp rm -f ../InterpFromMeshToMesh2d/.dirstamp rm -f ../Issm/.deps/.dirstamp rm -f ../Issm/.dirstamp rm -f ../IssmConfig/.deps/.dirstamp rm -f ../IssmConfig/.dirstamp rm -f ../NodeConnectivity/.deps/.dirstamp rm -f ../NodeConnectivity/.dirstamp rm -f ../Triangle/.deps/.dirstamp rm -f ../Triangle/.dirstamp rm -f io/.deps/.dirstamp rm -f io/.dirstamp rm -f TAGS ID GTAGS GRTAGS GSYMS GPATH tags rm -f ../BamgMesher/.deps/IssmModule-BamgMesher.Po rm -f ../ContourToMesh/.deps/IssmModule-ContourToMesh.Po rm -f ../ElementConnectivity/.deps/IssmModule-ElementConnectivity.Po rm -f ../InterpFromGridToMesh/.deps/IssmModule-InterpFromGridToMesh.Po rm -f ../InterpFromMeshToMesh2d/.deps/IssmModule-InterpFromMeshToMesh2d.Po rm -f ../Issm/.deps/IssmModule-issm.Po rm -f ../IssmConfig/.deps/IssmModule-IssmConfig.Po rm -f ../NodeConnectivity/.deps/IssmModule-NodeConnectivity.Po rm -f ../Triangle/.deps/IssmModule-Triangle.Po rm -f ./io/.deps/libISSMApi_la-ApiPrintf.Plo rm -f ./io/.deps/libISSMJavascript_la-FetchJavascriptData.Plo rm -f ./io/.deps/libISSMJavascript_la-WriteJavascriptData.Plo rm -f Makefile Making distclean in python test -z "libISSMPython.la libISSMApi.la BamgConvertMesh_python.la BamgMesher_python.la BamgTriangulate_python.la ContourToMesh_python.la ContourToNodes_python.la ElementConnectivity_python.la ExpToLevelSet_python.la InterpFromGridToMesh_python.la InterpFromMesh2d_python.la InterpFromMeshToGrid_python.la InterpFromMeshToMesh2d_python.la InterpFromMeshToMesh3d_python.la IssmConfig_python.la MeshPartition_python.la MeshProfileIntersection_python.la NodeConnectivity_python.la Triangle_python.la ProcessRifts_python.la Chaco_python.la" || rm -f libISSMPython.la libISSMApi.la BamgConvertMesh_python.la BamgMesher_python.la BamgTriangulate_python.la ContourToMesh_python.la ContourToNodes_python.la ElementConnectivity_python.la ExpToLevelSet_python.la InterpFromGridToMesh_python.la InterpFromMesh2d_python.la InterpFromMeshToGrid_python.la InterpFromMeshToMesh2d_python.la InterpFromMeshToMesh3d_python.la IssmConfig_python.la MeshPartition_python.la MeshProfileIntersection_python.la NodeConnectivity_python.la Triangle_python.la ProcessRifts_python.la Chaco_python.la rm -f ./so_locations rm -rf .libs _libs rm -rf ../BamgConvertMesh/.libs ../BamgConvertMesh/_libs rm -rf ../BamgMesher/.libs ../BamgMesher/_libs rm -rf ../BamgTriangulate/.libs ../BamgTriangulate/_libs rm -rf ../Chaco/.libs ../Chaco/_libs rm -rf ../ContourToMesh/.libs ../ContourToMesh/_libs rm -rf ../ContourToNodes/.libs ../ContourToNodes/_libs rm -rf ../ElementConnectivity/.libs ../ElementConnectivity/_libs rm -rf ../ExpToLevelSet/.libs ../ExpToLevelSet/_libs rm -rf ../InterpFromGridToMesh/.libs ../InterpFromGridToMesh/_libs rm -rf ../InterpFromMesh2d/.libs ../InterpFromMesh2d/_libs rm -rf ../InterpFromMeshToGrid/.libs ../InterpFromMeshToGrid/_libs rm -rf ../InterpFromMeshToMesh2d/.libs ../InterpFromMeshToMesh2d/_libs rm -rf ../InterpFromMeshToMesh3d/.libs ../InterpFromMeshToMesh3d/_libs rm -rf ../IssmConfig/.libs ../IssmConfig/_libs rm -rf ../MeshPartition/.libs ../MeshPartition/_libs rm -rf ../MeshProfileIntersection/.libs ../MeshProfileIntersection/_libs rm -rf ../NodeConnectivity/.libs ../NodeConnectivity/_libs rm -rf ../ProcessRifts/.libs ../ProcessRifts/_libs rm -rf ../Triangle/.libs ../Triangle/_libs rm -rf ./io/.libs ./io/_libs rm -f *.o rm -f ../BamgConvertMesh/*.o rm -f ../BamgConvertMesh/*.lo rm -f ../BamgMesher/*.o rm -f ../BamgMesher/*.lo rm -f ../BamgTriangulate/*.o rm -f ../BamgTriangulate/*.lo rm -f ../Chaco/*.o rm -f ../Chaco/*.lo rm -f ../ContourToMesh/*.o rm -f ../ContourToMesh/*.lo rm -f ../ContourToNodes/*.o rm -f ../ContourToNodes/*.lo rm -f ../ElementConnectivity/*.o rm -f ../ElementConnectivity/*.lo rm -f ../ExpToLevelSet/*.o rm -f ../ExpToLevelSet/*.lo rm -f ../InterpFromGridToMesh/*.o rm -f ../InterpFromGridToMesh/*.lo rm -f ../InterpFromMesh2d/*.o rm -f ../InterpFromMesh2d/*.lo rm -f ../InterpFromMeshToGrid/*.o rm -f ../InterpFromMeshToGrid/*.lo rm -f ../InterpFromMeshToMesh2d/*.o rm -f ../InterpFromMeshToMesh2d/*.lo rm -f ../InterpFromMeshToMesh3d/*.o rm -f ../InterpFromMeshToMesh3d/*.lo rm -f ../IssmConfig/*.o rm -f ../IssmConfig/*.lo rm -f ../MeshPartition/*.o rm -f ../MeshPartition/*.lo rm -f ../MeshProfileIntersection/*.o rm -f ../MeshProfileIntersection/*.lo rm -f ../NodeConnectivity/*.o rm -f ../NodeConnectivity/*.lo rm -f ../ProcessRifts/*.o rm -f ../ProcessRifts/*.lo rm -f ../Triangle/*.o rm -f ../Triangle/*.lo rm -f ./io/*.o rm -f ./io/*.lo rm -f *.lo rm -f *.tab.c test -z "" || rm -f test . = "." || test -z "" || rm -f rm -f ../BamgConvertMesh/.deps/.dirstamp rm -f ../BamgConvertMesh/.dirstamp rm -f ../BamgMesher/.deps/.dirstamp rm -f ../BamgMesher/.dirstamp rm -f ../BamgTriangulate/.deps/.dirstamp rm -f ../BamgTriangulate/.dirstamp rm -f ../Chaco/.deps/.dirstamp rm -f ../Chaco/.dirstamp rm -f ../ContourToMesh/.deps/.dirstamp rm -f ../ContourToMesh/.dirstamp rm -f ../ContourToNodes/.deps/.dirstamp rm -f ../ContourToNodes/.dirstamp rm -f ../ElementConnectivity/.deps/.dirstamp rm -f ../ElementConnectivity/.dirstamp rm -f ../ExpToLevelSet/.deps/.dirstamp rm -f ../ExpToLevelSet/.dirstamp rm -f ../InterpFromGridToMesh/.deps/.dirstamp rm -f ../InterpFromGridToMesh/.dirstamp rm -f ../InterpFromMesh2d/.deps/.dirstamp rm -f ../InterpFromMesh2d/.dirstamp rm -f ../InterpFromMeshToGrid/.deps/.dirstamp rm -f ../InterpFromMeshToGrid/.dirstamp rm -f ../InterpFromMeshToMesh2d/.deps/.dirstamp rm -f ../InterpFromMeshToMesh2d/.dirstamp rm -f ../InterpFromMeshToMesh3d/.deps/.dirstamp rm -f ../InterpFromMeshToMesh3d/.dirstamp rm -f ../IssmConfig/.deps/.dirstamp rm -f ../IssmConfig/.dirstamp rm -f ../MeshPartition/.deps/.dirstamp rm -f ../MeshPartition/.dirstamp rm -f ../MeshProfileIntersection/.deps/.dirstamp rm -f ../MeshProfileIntersection/.dirstamp rm -f ../NodeConnectivity/.deps/.dirstamp rm -f ../NodeConnectivity/.dirstamp rm -f ../ProcessRifts/.deps/.dirstamp rm -f ../ProcessRifts/.dirstamp rm -f ../Triangle/.deps/.dirstamp rm -f ../Triangle/.dirstamp rm -f io/.deps/.dirstamp rm -f io/.dirstamp rm -f TAGS ID GTAGS GRTAGS GSYMS GPATH tags rm -f ../BamgConvertMesh/.deps/BamgConvertMesh_python_la-BamgConvertMesh.Plo rm -f ../BamgMesher/.deps/BamgMesher_python_la-BamgMesher.Plo rm -f ../BamgTriangulate/.deps/BamgTriangulate_python_la-BamgTriangulate.Plo rm -f ../Chaco/.deps/Chaco_python_la-Chaco.Plo rm -f ../ContourToMesh/.deps/ContourToMesh_python_la-ContourToMesh.Plo rm -f ../ContourToNodes/.deps/ContourToNodes_python_la-ContourToNodes.Plo rm -f ../ElementConnectivity/.deps/ElementConnectivity_python_la-ElementConnectivity.Plo rm -f ../ExpToLevelSet/.deps/ExpToLevelSet_python_la-ExpToLevelSet.Plo rm -f ../InterpFromGridToMesh/.deps/InterpFromGridToMesh_python_la-InterpFromGridToMesh.Plo rm -f ../InterpFromMesh2d/.deps/InterpFromMesh2d_python_la-InterpFromMesh2d.Plo rm -f ../InterpFromMeshToGrid/.deps/InterpFromMeshToGrid_python_la-InterpFromMeshToGrid.Plo rm -f ../InterpFromMeshToMesh2d/.deps/InterpFromMeshToMesh2d_python_la-InterpFromMeshToMesh2d.Plo rm -f ../InterpFromMeshToMesh3d/.deps/InterpFromMeshToMesh3d_python_la-InterpFromMeshToMesh3d.Plo rm -f ../IssmConfig/.deps/IssmConfig_python_la-IssmConfig.Plo rm -f ../MeshPartition/.deps/MeshPartition_python_la-MeshPartition.Plo rm -f ../MeshProfileIntersection/.deps/MeshProfileIntersection_python_la-MeshProfileIntersection.Plo rm -f ../NodeConnectivity/.deps/NodeConnectivity_python_la-NodeConnectivity.Plo rm -f ../ProcessRifts/.deps/ProcessRifts_python_la-ProcessRifts.Plo rm -f ../Triangle/.deps/Triangle_python_la-Triangle.Plo rm -f ./io/.deps/libISSMApi_la-ApiPrintf.Plo rm -f ./io/.deps/libISSMPython_la-CheckNumPythonArguments.Plo rm -f ./io/.deps/libISSMPython_la-FetchPythonData.Plo rm -f ./io/.deps/libISSMPython_la-WritePythonData.Plo rm -f Makefile rm -rf .libs _libs rm -f *.lo test -z "" || rm -f test . = "." || test -z "" || rm -f rm -f TAGS ID GTAGS GRTAGS GSYMS GPATH tags rm -f Makefile rm -rf .libs _libs rm -f *.lo test -z "" || rm -f test . = "." || test -z "" || rm -f rm -f TAGS ID GTAGS GRTAGS GSYMS GPATH tags rm -f Makefile rm -rf .libs _libs rm -f *.lo test -z "" || rm -f test . = "." || test -z "" || rm -f rm -f config.h stamp-h1 rm -f libtool config.lt rm -f TAGS ID GTAGS GRTAGS GSYMS GPATH tags rm -f cscope.out cscope.in.out cscope.po.out cscope.files rm -f config.status config.cache config.log configure.lineno config.status.lineno rm -f Makefile autoreconf: Entering directory `.' autoreconf: configure.ac: not using Gettext autoreconf: running: aclocal --force -I m4 autoreconf: configure.ac: tracing autoreconf: running: libtoolize --copy --force libtoolize: putting auxiliary files in AC_CONFIG_AUX_DIR, './aux-config'. libtoolize: copying file './aux-config/ltmain.sh' libtoolize: putting macros in AC_CONFIG_MACRO_DIRS, 'm4'. libtoolize: copying file 'm4/libtool.m4' libtoolize: copying file 'm4/ltoptions.m4' libtoolize: copying file 'm4/ltsugar.m4' libtoolize: copying file 'm4/ltversion.m4' libtoolize: copying file 'm4/lt~obsolete.m4' autoreconf: running: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/autotools/install/bin/autoconf --force autoreconf: running: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/autotools/install/bin/autoheader --force autoreconf: running: automake --add-missing --copy --force-missing configure.ac:17: installing './aux-config/compile' configure.ac:24: installing './aux-config/missing' src/c/Makefile.am: installing './aux-config/depcomp' autoreconf: Leaving directory `.' configure: ============================================================================ configure: = Ice-sheet and Sea-level System Model (ISSM) 4.24 configuration = configure: ============================================================================ checking build system type... x86_64-apple-darwin21.6.0 checking host system type... x86_64-apple-darwin21.6.0 checking target system type... x86_64-apple-darwin21.6.0 checking for icc... no checking for cl... no checking for icl... no checking for gcc... gcc checking whether the C compiler works... yes checking for C compiler default output file name... a.out checking for suffix of 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(cached) yes checking whether the gfortran linker (/Library/Developer/CommandLineTools/usr/bin/ld) supports shared libraries... yes checking dynamic linker characteristics... darwin21.6.0 dyld checking how to hardcode library paths into programs... immediate checking if libtool supports shared libraries... yes checking whether to build shared libraries... yes checking whether to build static libraries... no checking for gfortran option to produce PIC... -fno-common checking if gfortran PIC flag -fno-common works... yes checking if gfortran static flag -static works... no checking if gfortran supports -c -o file.o... yes checking if gfortran supports -c -o file.o... (cached) yes checking whether the gfortran linker (/Library/Developer/CommandLineTools/usr/bin/ld) supports shared libraries... yes checking dynamic linker characteristics... darwin21.6.0 dyld checking how to hardcode library paths into programs... immediate configure: ============================================================================ configure: = Checking ISSM specific options = configure: ============================================================================ checking for date... /bin/date checking for build date... Tue Jul 30 21:25:24 PDT 2024 checking user name... jenkins checking host full OS name and version... darwin21.6.0 checking host cpu... x86_64 checking vendor... apple checking host OS name... darwin21 checking host OS version... 21.6.0 checking host OS architecture... x86_64 checking for debugging support... yes checking for development support... yes checking for standalone modules build... no checking for standalone executables build... no checking for standalone libraries build... no checking for wrappers compilation... yes checking operating system type... macOS checking if system copy of libc has fmemopen (macOS-only check)... yes checking for MATLAB... yes checking MATLAB's mex compilation flags... done checking for JavaScript... no checking for triangle... yes checking for Boost... yes checking for Boost version... 1.73 checking for Dakota... yes checking for Dakota version... 6.2 checking for Dakota major version... 6 checking for Dakota minor version... 2 checking for Dakota build version... 0 checking for Python... no checking for python-numpy... no checking for Chaco... yes checking for ESMF... no checking for CoDiPack... no checking for tape allocation... no checking for ADOL-C... no checking for ADOL-C version... 2 checking for ATLAS and CBLAS libraries... no checking for GSL... yes checking for AMPI... no checking for Adjoint MPI... no checking for MeDiPack... no checking for HDF5 libraries... yes checking for PETSc... yes checking for PETSc version... 3.20 checking whether PETSc is the development version... no checking for PETSc libraries and header files in /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install... done checking for MPI... yes checking for SCOTCH... no checking for METIS... yes checking for ParMETIS... yes checking for TAO... yes checking for M1QN3... yes checking for PROJ... yes checking for shapelib... no checking for ScaLAPACK... yes checking for BLAS/LAPACK... yes checking for MKL... no checking for PlaLAPACK... no checking for MPLAPACK... no checking for MUMPS... yes checking for BLACS... no checking for HYPRE... no checking for Prometheus... no checking for SEMIC... yes checking for SPAI... no checking for SuperLU... no checking for SPOOLES... no checking for PaStiX... no checking for ml... no checking for UMFPACK... no checking for libm... done checking for MATH77... no checking for Fortran compilation... yes checking for Fortran library... done checking for MeteoIO... no checking for SNOWPACK... no checking for NeoPZ... no checking for Gmsh... no checking for BAMG capability compilation... yes checking for ice/ocean coupling capability compilation... no checking for kml capability compilation... no checking for kriging capability compilation... yes checking for HydrologyTws capability compilation... yes checking for AdjointBalancethickness2 capability compilation... yes checking for AdjointBalancethickness capability compilation... yes checking for AdjointHoriz capability compilation... yes checking for Age capability compilation... yes checking for Balancethickness2 capability compilation... yes checking for Balancethickness capability compilation... yes checking for BalancethicknessSoft capability compilation... yes checking for Balancevelocity capability compilation... yes checking for DamageEvolution capability compilation... yes checking for Debris capability compilation... yes checking for DepthAverage capability compilation... yes checking for Enthalpy capability compilation... yes checking for Esa capability compilation... yes checking for Extrapolation capability compilation... yes checking for ExtrudeFromBase capability compilation... yes checking for ExtrudeFromTop capability compilation... yes checking for FreeSurfaceBase capability compilation... yes checking for FreeSurfaceTop capability compilation... yes checking for GLheightadvection capability compilation... yes checking for HydrologyDCEfficient capability compilation... yes checking for HydrologyDCInefficient capability compilation... yes checking for HydrologyGlaDS capability compilation... yes checking for HydrologyPism capability compilation... yes checking for HydrologyShakti capability compilation... yes checking for HydrologyShreve capability compilation... yes checking for HydrologyArmapw capability compilation... yes checking for L2ProjectionBase capability compilation... yes checking for L2ProjectionEPL capability compilation... yes checking for Levelset capability compilation... yes checking for Love capability compilation... yes checking for Masstransport capability compilation... yes checking for Melting capability compilation... yes checking for Oceantransport capability compilation... yes checking for Recovery capability compilation... yes checking for Sampling capability compilation... yes checking for Sealevelchange capability compilation... yes checking for Smb capability compilation... yes checking for Smooth capability compilation... yes checking for Stressbalance capability compilation... yes checking for StressbalanceSIA capability compilation... yes checking for StressbalanceVertical capability compilation... yes checking for Thermal capability compilation... yes checking for UzawaPressure capability compilation... yes checking for number of threads... 4 checking for 64-bit indices... 0 checking consistency between all external packages... done checking that generated files are newer than configure... done configure: creating ./config.status config.status: creating Makefile config.status: creating src/Makefile config.status: creating src/c/Makefile config.status: creating src/wrappers/Makefile config.status: creating src/wrappers/python/Makefile config.status: creating src/wrappers/matlab/Makefile config.status: creating src/wrappers/javascript/Makefile config.status: creating src/m/Makefile config.status: creating ./config.h config.status: executing depfiles commands config.status: executing libtool commands ====================================================== Compiling ISSM ====================================================== Making with 4 CPUs /Library/Developer/CommandLineTools/usr/bin/make all-recursive Making all in src Making all in c CXX classes/libISSMCore_la-IoModel.lo CXX classes/libISSMCore_la-FemModel.lo CXX classes/libISSMCore_la-DependentObject.lo CXX classes/libISSMCore_la-Contours.lo CXX classes/libISSMCore_la-Vertices.lo CXX classes/libISSMCore_la-Nodes.lo CXX classes/libISSMCore_la-Numberedcostfunction.lo CXX classes/libISSMCore_la-Misfit.lo CXX classes/libISSMCore_la-Cfsurfacesquare.lo CXX classes/libISSMCore_la-Cfsurfacesquaretransient.lo CXX classes/libISSMCore_la-Cfdragcoeffabsgrad.lo CXX classes/libISSMCore_la-Cfdragcoeffabsgradtransient.lo CXX classes/libISSMCore_la-Cfrheologybbarabsgrad.lo CXX classes/libISSMCore_la-Cfrheologybbarabsgradtransient.lo CXX classes/libISSMCore_la-Cfsurfacelogvel.lo CXX classes/libISSMCore_la-Cflevelsetmisfit.lo CXX classes/libISSMCore_la-Regionaloutput.lo CXX classes/libISSMCore_la-Nodalvalue.lo CXX classes/libISSMCore_la-Node.lo CXX classes/libISSMCore_la-Vertex.lo CXX classes/libISSMCore_la-Hook.lo CXX classes/libISSMCore_la-Radar.lo CXX classes/libISSMCore_la-BarystaticContributions.lo CXX classes/Constraints/libISSMCore_la-Constraints.lo CXX classes/Constraints/libISSMCore_la-SpcStatic.lo CXX classes/Constraints/libISSMCore_la-SpcDynamic.lo CXX classes/Loads/libISSMCore_la-Channel.lo CXX classes/Loads/libISSMCore_la-Loads.lo CXX classes/Loads/libISSMCore_la-Penpair.lo CXX classes/Loads/libISSMCore_la-Pengrid.lo CXX classes/Loads/libISSMCore_la-Moulin.lo CXX classes/Loads/libISSMCore_la-Numericalflux.lo CXX classes/Loads/libISSMCore_la-Neumannflux.lo CXX classes/libISSMCore_la-Profiler.lo CXX modules/ModelProcessorx/libISSMCore_la-CreateFaces.lo CXX modules/ModelProcessorx/libISSMCore_la-CreateEdges.lo CXX modules/ModelProcessorx/libISSMCore_la-CreateSingleNodeToElementConnectivity.lo CXX modules/ModelProcessorx/libISSMCore_la-CreateNumberNodeToElementConnectivity.lo CXX modules/ModelProcessorx/libISSMCore_la-CreateElementsVerticesAndMaterials.lo CXX modules/ModelProcessorx/libISSMCore_la-CreateNodes.lo CXX main/libISSMCore_la-EnvironmentInit.lo CXX main/libISSMCore_la-EnvironmentFinalize.lo CXX classes/libISSMCore_la-RiftStruct.lo CXX cores/libISSMCore_la-transient_core.lo CXX cores/libISSMCore_la-steadystate_core.lo CXX cores/libISSMCore_la-masstransport_core.lo CXX cores/libISSMCore_la-oceantransport_core.lo CXX cores/libISSMCore_la-depthaverage_core.lo CXX cores/libISSMCore_la-extrudefrombase_core.lo CXX cores/libISSMCore_la-extrudefromtop_core.lo CXX cores/libISSMCore_la-thermal_core.lo CXX cores/libISSMCore_la-smb_core.lo CXX cores/libISSMCore_la-bmb_core.lo CXX cores/libISSMCore_la-debris_core.lo CXX solutionsequences/libISSMCore_la-solutionsequence_thermal_nonlinear.lo CXX shared/Numerics/libISSMCore_la-BrentSearch.lo CXX cores/libISSMCore_la-control_core.lo CXX cores/libISSMCore_la-controltao_core.lo CXX cores/libISSMCore_la-controlm1qn3_core.lo CXX cores/libISSMCore_la-controladm1qn3_core.lo CXX cores/libISSMCore_la-controlvalidation_core.lo CXX cores/libISSMCore_la-adjointstressbalance_core.lo CXX cores/libISSMCore_la-adjointbalancethickness_core.lo CXX cores/libISSMCore_la-adjointbalancethickness2_core.lo CXX cores/libISSMCore_la-AdjointCorePointerFromSolutionEnum.lo CXX solutionsequences/libISSMCore_la-solutionsequence_adjoint_linear.lo CXX cores/libISSMCore_la-hydrology_core.lo CXX solutionsequences/libISSMCore_la-solutionsequence_hydro_nonlinear.lo CXX solutionsequences/libISSMCore_la-solutionsequence_shakti_nonlinear.lo CXX solutionsequences/libISSMCore_la-solutionsequence_glads_nonlinear.lo CXX cores/libISSMCore_la-stressbalance_core.lo CXX solutionsequences/libISSMCore_la-solutionsequence_stokescoupling_nonlinear.lo CXX cores/libISSMCore_la-balancethickness_core.lo CXX cores/libISSMCore_la-balancethickness2_core.lo CXX cores/libISSMCore_la-balancevelocity_core.lo CXX cores/libISSMCore_la-dummy_core.lo CXX cores/libISSMCore_la-surfaceslope_core.lo CXX cores/libISSMCore_la-bedslope_core.lo CXX cores/libISSMCore_la-damage_core.lo CXX cores/libISSMCore_la-levelsetfunctionslope_core.lo CXX cores/libISSMCore_la-movingfront_core.lo CXX cores/libISSMCore_la-groundingline_core.lo CXX classes/Loads/libISSMCore_la-Riftfront.lo CXX modules/ConstraintsStatex/libISSMCore_la-RiftConstraintsState.lo CXX modules/ModelProcessorx/libISSMCore_la-CreateOutputDefinitions.lo CXX cores/libISSMCore_la-dakota_core.lo CXX analyses/libISSMCore_la-AdjointBalancethicknessAnalysis.lo CXX analyses/libISSMCore_la-AdjointBalancethickness2Analysis.lo CXX analyses/libISSMCore_la-AdjointHorizAnalysis.lo CXX analyses/libISSMCore_la-AgeAnalysis.lo CXX analyses/libISSMCore_la-BalancethicknessAnalysis.lo CXX analyses/libISSMCore_la-Balancethickness2Analysis.lo CXX analyses/libISSMCore_la-BalancethicknessSoftAnalysis.lo CXX analyses/libISSMCore_la-BalancevelocityAnalysis.lo CXX analyses/libISSMCore_la-L2ProjectionBaseAnalysis.lo CXX analyses/libISSMCore_la-DamageEvolutionAnalysis.lo CXX analyses/libISSMCore_la-DebrisAnalysis.lo CXX analyses/libISSMCore_la-StressbalanceAnalysis.lo CXX analyses/libISSMCore_la-UzawaPressureAnalysis.lo CXX analyses/libISSMCore_la-StressbalanceSIAAnalysis.lo CXX analyses/libISSMCore_la-StressbalanceVerticalAnalysis.lo CXX analyses/libISSMCore_la-EnthalpyAnalysis.lo CXX analyses/libISSMCore_la-GLheightadvectionAnalysis.lo CXX analyses/libISSMCore_la-HydrologyShreveAnalysis.lo CXX analyses/libISSMCore_la-HydrologyTwsAnalysis.lo CXX analyses/libISSMCore_la-HydrologyShaktiAnalysis.lo CXX analyses/libISSMCore_la-HydrologyPismAnalysis.lo CXX analyses/libISSMCore_la-HydrologyGlaDSAnalysis.lo CXX analyses/libISSMCore_la-HydrologyDCInefficientAnalysis.lo CXX analyses/libISSMCore_la-HydrologyDCEfficientAnalysis.lo CXX analyses/libISSMCore_la-HydrologyArmapwAnalysis.lo CXX analyses/libISSMCore_la-L2ProjectionEPLAnalysis.lo CXX analyses/libISSMCore_la-MeltingAnalysis.lo CXX analyses/libISSMCore_la-MasstransportAnalysis.lo CXX analyses/libISSMCore_la-OceantransportAnalysis.lo CXX analyses/libISSMCore_la-SmbAnalysis.lo CXX analyses/libISSMCore_la-FreeSurfaceBaseAnalysis.lo CXX analyses/libISSMCore_la-FreeSurfaceTopAnalysis.lo CXX analyses/libISSMCore_la-ExtrudeFromBaseAnalysis.lo CXX analyses/libISSMCore_la-ExtrudeFromTopAnalysis.lo CXX analyses/libISSMCore_la-DepthAverageAnalysis.lo CXX analyses/libISSMCore_la-ThermalAnalysis.lo CXX analyses/libISSMCore_la-SmoothAnalysis.lo CXX analyses/libISSMCore_la-LevelsetAnalysis.lo CXX analyses/libISSMCore_la-ExtrapolationAnalysis.lo CXX cores/libISSMCore_la-love_core.lo CXX analyses/libISSMCore_la-LoveAnalysis.lo CXX cores/libISSMCore_la-esa_core.lo CXX analyses/libISSMCore_la-EsaAnalysis.lo CXX cores/libISSMCore_la-sampling_core.lo CXX analyses/libISSMCore_la-SamplingAnalysis.lo CXX cores/libISSMCore_la-sealevelchange_core.lo CXX analyses/libISSMCore_la-SealevelchangeAnalysis.lo CXX classes/libISSMCore_la-GrdLoads.lo CXX classes/libISSMCore_la-SealevelGeometry.lo FC modules/SurfaceMassBalancex/run_semic.lo FC modules/SurfaceMassBalancex/run_semic_transient.lo CXX shared/String/ApiPrintf.lo CXX modules/Krigingx/libISSMModules_la-Krigingx.lo CXX modules/Krigingx/libISSMModules_la-pKrigingx.lo CXX main/issm_slc-issm_slc.o CXX main/kriging-kriging.o CXX main/issm_dakota-issm_dakota.o CXX main/issm_post-issm_post.o CXX main/issm-issm.o CXX bamg/libISSMCore_la-BamgGeom.lo CXX bamg/libISSMCore_la-BamgMesh.lo CXX bamg/libISSMCore_la-BamgOpts.lo CXX bamg/libISSMCore_la-CrackedEdge.lo CXX bamg/libISSMCore_la-Curve.lo CXX bamg/libISSMCore_la-Edge.lo CXX bamg/libISSMCore_la-GeomEdge.lo CXX bamg/libISSMCore_la-GeomSubDomain.lo CXX bamg/libISSMCore_la-GeomVertex.lo CXX bamg/libISSMCore_la-Geometry.lo CXX bamg/libISSMCore_la-ListofIntersectionTriangles.lo CXX bamg/libISSMCore_la-EigenMetric.lo CXX bamg/libISSMCore_la-Metric.lo CXX bamg/libISSMCore_la-BamgQuadtree.lo CXX bamg/libISSMCore_la-SetOfE4.lo CXX bamg/libISSMCore_la-SubDomain.lo CXX bamg/libISSMCore_la-AdjacentTriangle.lo CXX bamg/libISSMCore_la-Triangle.lo CXX bamg/libISSMCore_la-BamgVertex.lo CXX bamg/libISSMCore_la-VertexOnEdge.lo CXX bamg/libISSMCore_la-VertexOnGeom.lo CXX bamg/libISSMCore_la-VertexOnVertex.lo CXX bamg/libISSMCore_la-Mesh.lo CXX shared/Bamg/libISSMCore_la-BigPrimeNumber.lo CXX modules/Bamgx/libISSMCore_la-Bamgx.lo CXX modules/BamgConvertMeshx/libISSMCore_la-BamgConvertMeshx.lo CXX modules/BamgTriangulatex/libISSMCore_la-BamgTriangulatex.lo CXX classes/libISSMCore_la-AmrBamg.lo CXX datastructures/libISSMCore_la-DataSet.lo CXX classes/gauss/libISSMCore_la-GaussSeg.lo CXX classes/gauss/libISSMCore_la-GaussTria.lo CXX classes/gauss/libISSMCore_la-GaussTetra.lo CXX classes/gauss/libISSMCore_la-GaussPenta.lo CXX classes/Loads/libISSMCore_la-Friction.lo CXX classes/Constraints/libISSMCore_la-SpcTransient.lo CXX classes/ExternalResults/libISSMCore_la-Results.lo CXX classes/Elements/libISSMCore_la-Element.lo CXX classes/Elements/libISSMCore_la-Elements.lo CXX classes/Elements/libISSMCore_la-ElementHook.lo CXX classes/Elements/libISSMCore_la-Seg.lo CXX classes/Elements/libISSMCore_la-SegRef.lo CXX classes/Elements/libISSMCore_la-Tria.lo CXX classes/Elements/libISSMCore_la-TriaRef.lo CXX classes/Elements/libISSMCore_la-Tetra.lo CXX classes/Elements/libISSMCore_la-TetraRef.lo CXX classes/Elements/libISSMCore_la-Penta.lo CXX classes/Elements/libISSMCore_la-PentaRef.lo CXX classes/Materials/libISSMCore_la-Materials.lo CXX classes/Materials/libISSMCore_la-Matice.lo CXX classes/Materials/libISSMCore_la-Matlitho.lo CXX classes/Materials/libISSMCore_la-Matestar.lo CXX classes/matrix/libISSMCore_la-ElementMatrix.lo CXX classes/matrix/libISSMCore_la-ElementVector.lo CXX classes/Params/libISSMCore_la-Parameters.lo CXX classes/Params/libISSMCore_la-BoolParam.lo CXX classes/Params/libISSMCore_la-ControlParam.lo CXX classes/Params/libISSMCore_la-IntParam.lo CXX classes/Params/libISSMCore_la-IntVecParam.lo CXX classes/Params/libISSMCore_la-IntMatParam.lo CXX classes/Params/libISSMCore_la-DoubleParam.lo CXX classes/Params/libISSMCore_la-FileParam.lo CXX classes/Params/libISSMCore_la-StringArrayParam.lo CXX classes/Params/libISSMCore_la-DoubleMatParam.lo CXX classes/Params/libISSMCore_la-DoubleTransientMatParam.lo CXX classes/Params/libISSMCore_la-DoubleMatArrayParam.lo CXX classes/Params/libISSMCore_la-DoubleVecParam.lo CXX classes/Params/libISSMCore_la-StringParam.lo CXX classes/Params/libISSMCore_la-MatrixParam.lo CXX classes/Params/libISSMCore_la-VectorParam.lo CXX classes/Params/libISSMCore_la-TransientParam.lo CXX classes/Params/libISSMCore_la-TransientArrayParam.lo CXX classes/Params/libISSMCore_la-DataSetParam.lo CXX shared/Matrix/libISSMCore_la-MatrixUtils.lo CXX shared/io/Disk/libISSMCore_la-pfopen.lo CXX shared/io/Disk/libISSMCore_la-pfclose.lo CXX shared/io/Disk/libISSMCore_la-WriteLockFile.lo CXX shared/io/Print/libISSMCore_la-PrintfFunction.lo CXX shared/io/Comm/libISSMCore_la-IssmComm.lo CXX shared/io/Marshalling/libISSMCore_la-IoCodeConversions.lo CXX shared/io/Marshalling/libISSMCore_la-Marshalling.lo CXX shared/LatLong/libISSMCore_la-Ll2xyx.lo CXX shared/LatLong/libISSMCore_la-Xy2llx.lo CXX shared/FSanalyticals/libISSMCore_la-fsanalyticals.lo CXX shared/Enum/libISSMCore_la-EnumToStringx.lo CXX shared/Enum/libISSMCore_la-StringToEnumx.lo CXX shared/Numerics/libISSMCore_la-Verbosity.lo CXX shared/Numerics/libISSMCore_la-GaussPoints.lo CXX shared/Numerics/libISSMCore_la-cross.lo CXX shared/Numerics/libISSMCore_la-cubic.lo CXX shared/Numerics/libISSMCore_la-NewtonSolveDnorm.lo CXX shared/Numerics/libISSMCore_la-ODE1.lo CXX shared/Numerics/libISSMCore_la-extrema.lo CXX shared/Numerics/libISSMCore_la-legendre.lo CXX shared/Numerics/libISSMCore_la-XZvectorsToCoordinateSystem.lo CXX shared/Exceptions/libISSMCore_la-Exceptions.lo CXX shared/Sorting/libISSMCore_la-binary_search.lo CXX shared/Elements/libISSMCore_la-Cuffey.lo CXX shared/Elements/libISSMCore_la-BuddJacka.lo CXX shared/Elements/libISSMCore_la-CuffeyTemperate.lo CXX shared/Elements/libISSMCore_la-StressIntensityIntegralWeight.lo CXX shared/Elements/libISSMCore_la-Paterson.lo CXX shared/Elements/libISSMCore_la-Arrhenius.lo CXX shared/Elements/libISSMCore_la-NyeCO2.lo CXX shared/Elements/libISSMCore_la-NyeH2O.lo CXX shared/Elements/libISSMCore_la-LliboutryDuval.lo CXX shared/Elements/libISSMCore_la-PrintArrays.lo CXX shared/Elements/libISSMCore_la-PddSurfaceMassBalance.lo CXX shared/Elements/libISSMCore_la-PddSurfaceMassBalanceSicopolis.lo CXX shared/Elements/libISSMCore_la-ComputeDelta18oTemperaturePrecipitation.lo CXX shared/Elements/libISSMCore_la-ComputeMungsmTemperaturePrecipitation.lo CXX shared/Elements/libISSMCore_la-ComputeD18OTemperaturePrecipitationFromPD.lo CXX shared/Elements/libISSMCore_la-DrainageFunctionWaterfraction.lo CXX shared/Elements/libISSMCore_la-EstarComponents.lo CXX shared/Random/libISSMCore_la-random.lo CXX shared/Random/libISSMCore_la-randomgenerator.lo CXX shared/String/libISSMCore_la-DescriptorIndex.lo CXX toolkits/issm/libISSMCore_la-IssmToolkitUtils.lo CXX toolkits/issm/libISSMCore_la-IssmSolver.lo CXX toolkits/mpi/libISSMCore_la-issmmpi.lo CXX toolkits/mpi/commops/libISSMCore_la-DetermineLocalSize.lo CXX toolkits/mpi/commops/libISSMCore_la-DetermineGlobalSize.lo CXX toolkits/mpi/commops/libISSMCore_la-DetermineRowRankFromLocalSize.lo CXX toolkits/mpi/commops/libISSMCore_la-GetOwnershipBoundariesFromRange.lo CXX toolkits/libISSMCore_la-ToolkitOptions.lo CXX modules/MmeToInputFromIdx/libISSMCore_la-MmeToInputFromIdx.lo CXX modules/ModelProcessorx/libISSMCore_la-ModelProcessorx.lo CXX modules/ModelProcessorx/libISSMCore_la-ElementsAndVerticesPartitioning.lo CXX modules/ModelProcessorx/libISSMCore_la-NodesPartitioning.lo CXX modules/ModelProcessorx/libISSMCore_la-EdgesPartitioning.lo CXX modules/ModelProcessorx/libISSMCore_la-FacesPartitioning.lo CXX modules/ModelProcessorx/libISSMCore_la-CreateParameters.lo CXX modules/ModelProcessorx/Autodiff/libISSMCore_la-CreateParametersAutodiff.lo CXX modules/ParseToolkitsOptionsx/libISSMCore_la-ParseToolkitsOptionsx.lo CXX modules/NodesDofx/libISSMCore_la-NodesDofx.lo CXX modules/NodalValuex/libISSMCore_la-NodalValuex.lo CXX modules/VertexCoordinatesx/libISSMCore_la-VertexCoordinatesx.lo CXX modules/ElementCoordinatesx/libISSMCore_la-ElementCoordinatesx.lo CXX modules/OutputResultsx/libISSMCore_la-OutputResultsx.lo CXX modules/InputDepthAverageAtBasex/libISSMCore_la-InputDepthAverageAtBasex.lo CXX modules/InputDuplicatex/libISSMCore_la-InputDuplicatex.lo CXX modules/InputExtrudex/libISSMCore_la-InputExtrudex.lo CXX modules/SurfaceAreax/libISSMCore_la-SurfaceAreax.lo CXX modules/AllocateSystemMatricesx/libISSMCore_la-AllocateSystemMatricesx.lo CXX modules/CreateJacobianMatrixx/libISSMCore_la-CreateJacobianMatrixx.lo CXX modules/SystemMatricesx/libISSMCore_la-SystemMatricesx.lo CXX modules/CreateNodalConstraintsx/libISSMCore_la-CreateNodalConstraintsx.lo CXX modules/UpdateDynamicConstraintsx/libISSMCore_la-UpdateDynamicConstraintsx.lo CXX modules/IoModelToConstraintsx/libISSMCore_la-IoModelToConstraintsx.lo CXX modules/SetActiveNodesLSMx/libISSMCore_la-SetActiveNodesLSMx.lo CXX modules/InputUpdateFromConstantx/libISSMCore_la-InputUpdateFromConstantx.lo CXX modules/InputUpdateFromSolutionx/libISSMCore_la-InputUpdateFromSolutionx.lo CXX modules/GeothermalFluxx/libISSMCore_la-GeothermalFluxx.lo CXX modules/GetSolutionFromInputsx/libISSMCore_la-GetSolutionFromInputsx.lo CXX modules/GetVectorFromInputsx/libISSMCore_la-GetVectorFromInputsx.lo CXX modules/InputUpdateFromVectorx/libISSMCore_la-InputUpdateFromVectorx.lo CXX modules/FloatingiceMeltingRatex/libISSMCore_la-FloatingiceMeltingRatex.lo CXX modules/FloatingiceMeltingRatePicox/libISSMCore_la-FloatingiceMeltingRatePicox.lo CXX modules/FrontalForcingsx/libISSMCore_la-FrontalForcingsx.lo CXX modules/ConfigureObjectsx/libISSMCore_la-ConfigureObjectsx.lo CXX modules/SpcNodesx/libISSMCore_la-SpcNodesx.lo CXX modules/SurfaceMassBalancex/libISSMCore_la-SurfaceMassBalancex.lo CXX modules/SurfaceMassBalancex/libISSMCore_la-Gembx.lo CXX modules/Reducevectorgtofx/libISSMCore_la-Reducevectorgtofx.lo CXX modules/Reduceloadx/libISSMCore_la-Reduceloadx.lo CXX modules/ConstraintsStatex/libISSMCore_la-ConstraintsStatex.lo CXX modules/ResetConstraintsx/libISSMCore_la-ResetConstraintsx.lo CXX modules/ResetFSBasalBoundaryConditionx/libISSMCore_la-ResetFSBasalBoundaryConditionx.lo CXX modules/Solverx/libISSMCore_la-Solverx.lo CXX modules/StochasticForcingx/libISSMCore_la-StochasticForcingx.lo CXX modules/Mergesolutionfromftogx/libISSMCore_la-Mergesolutionfromftogx.lo CXX cores/libISSMCore_la-ProcessArguments.lo CXX cores/libISSMCore_la-ResetBoundaryConditions.lo CXX cores/libISSMCore_la-WrapperCorePointerFromSolutionEnum.lo CXX cores/libISSMCore_la-WrapperPreCorePointerFromSolutionEnum.lo CXX cores/libISSMCore_la-CorePointerFromSolutionEnum.lo CXX cores/libISSMCore_la-ad_core.lo CXX analyses/libISSMCore_la-EnumToAnalysis.lo CXX solutionsequences/libISSMCore_la-solutionsequence_la.lo CXX solutionsequences/libISSMCore_la-solutionsequence_la_theta.lo CXX solutionsequences/libISSMCore_la-solutionsequence_linear.lo CXX solutionsequences/libISSMCore_la-solutionsequence_nonlinear.lo CXX solutionsequences/libISSMCore_la-solutionsequence_newton.lo CXX solutionsequences/libISSMCore_la-solutionsequence_fct.lo CXX solutionsequences/libISSMCore_la-solutionsequence_schurcg.lo CXX solutionsequences/libISSMCore_la-solutionsequence_sampling.lo CXX solutionsequences/libISSMCore_la-convergence.lo CXX classes/Options/libISSMCore_la-Options.lo CXX classes/Options/libISSMCore_la-OptionUtilities.lo CXX modules/ModelProcessorx/Transient/libISSMCore_la-UpdateElementsTransient.lo CXX modules/ModelProcessorx/Transient/libISSMCore_la-UpdateParametersTransient.lo CXX modules/ControlInputSetGradientx/libISSMCore_la-ControlInputSetGradientx.lo CXX modules/GetVectorFromControlInputsx/libISSMCore_la-GetVectorFromControlInputsx.lo CXX modules/SetControlInputsFromVectorx/libISSMCore_la-SetControlInputsFromVectorx.lo CXX modules/ModelProcessorx/Control/libISSMCore_la-CreateParametersControl.lo CXX modules/ModelProcessorx/Control/libISSMCore_la-UpdateElementsAndMaterialsControl.lo CXX modules/SurfaceAbsVelMisfitx/libISSMCore_la-SurfaceAbsVelMisfitx.lo CXX modules/SurfaceRelVelMisfitx/libISSMCore_la-SurfaceRelVelMisfitx.lo CXX modules/SurfaceLogVelMisfitx/libISSMCore_la-SurfaceLogVelMisfitx.lo CXX modules/SurfaceLogVxVyMisfitx/libISSMCore_la-SurfaceLogVxVyMisfitx.lo CXX modules/SurfaceAverageVelMisfitx/libISSMCore_la-SurfaceAverageVelMisfitx.lo CXX modules/ThicknessAbsMisfitx/libISSMCore_la-ThicknessAbsMisfitx.lo CXX modules/Gradjx/libISSMCore_la-Gradjx.lo CXX modules/DragCoefficientAbsGradientx/libISSMCore_la-DragCoefficientAbsGradientx.lo CXX modules/ThicknessAlongGradientx/libISSMCore_la-ThicknessAlongGradientx.lo CXX modules/ThicknessAcrossGradientx/libISSMCore_la-ThicknessAcrossGradientx.lo CXX modules/RheologyBbarAbsGradientx/libISSMCore_la-RheologyBbarAbsGradientx.lo CXX modules/RheologyBAbsGradientx/libISSMCore_la-RheologyBAbsGradientx.lo CXX modules/GroundinglineMigrationx/libISSMCore_la-GroundinglineMigrationx.lo CXX modules/OutputDefinitionsResponsex/libISSMCore_la-OutputDefinitionsResponsex.lo CXX modules/InterpFromMeshToMesh2dx/libISSMCore_la-InterpFromMeshToMesh2dx.lo CXX classes/Inputs/libISSMCore_la-Inputs.lo CXX classes/Inputs/libISSMCore_la-BoolInput.lo CXX classes/Inputs/libISSMCore_la-DoubleInput.lo CXX classes/Inputs/libISSMCore_la-IntInput.lo CXX classes/Inputs/libISSMCore_la-ElementInput.lo CXX classes/Inputs/libISSMCore_la-SegInput.lo CXX classes/Inputs/libISSMCore_la-TriaInput.lo CXX classes/Inputs/libISSMCore_la-PentaInput.lo CXX classes/Inputs/libISSMCore_la-DatasetInput.lo CXX classes/Inputs/libISSMCore_la-ControlInput.lo CXX classes/Inputs/libISSMCore_la-TransientInput.lo CXX classes/Inputs/libISSMCore_la-ArrayInput.lo CXX classes/Inputs/libISSMCore_la-IntArrayInput.lo CXX classes/Dakota/libISSMCore_la-IssmParallelDirectApplicInterface.lo CXX modules/InputUpdateFromDakotax/libISSMCore_la-InputUpdateFromDakotax.lo CXX modules/InputUpdateFromVectorDakotax/libISSMCore_la-InputUpdateFromVectorDakotax.lo CXX modules/InputUpdateFromMatrixDakotax/libISSMCore_la-InputUpdateFromMatrixDakotax.lo CXX modules/AverageOntoPartitionx/libISSMCore_la-AverageOntoPartitionx.lo CXX modules/ModelProcessorx/Dakota/libISSMCore_la-CreateParametersDakota.lo CXX modules/ModelProcessorx/Dakota/libISSMCore_la-UpdateElementsAndMaterialsDakota.lo CXX modules/QmuStatisticsx/libISSMCore_la-QmuStatisticsx.lo CXX toolkits/petsc/patches/libISSMCore_la-VecToMPISerial.lo CXX toolkits/petsc/patches/libISSMCore_la-MatToMPISerial.lo CXX toolkits/petsc/patches/libISSMCore_la-NewVec.lo CXX toolkits/petsc/patches/libISSMCore_la-PetscOptionsDetermineSolverType.lo CXX toolkits/petsc/patches/libISSMCore_la-NewMat.lo CXX toolkits/petsc/patches/libISSMCore_la-VecFree.lo CXX toolkits/petsc/patches/libISSMCore_la-KSPFree.lo CXX toolkits/petsc/patches/libISSMCore_la-MatFree.lo CXX toolkits/petsc/patches/libISSMCore_la-MatMultPatch.lo CXX toolkits/petsc/patches/libISSMCore_la-ISSMToPetscMatrixType.lo CXX toolkits/petsc/patches/libISSMCore_la-ISSMToPetscInsertMode.lo CXX toolkits/petsc/patches/libISSMCore_la-ISSMToPetscNormMode.lo CXX toolkits/petsc/objects/libISSMCore_la-PetscMat.lo CXX toolkits/petsc/objects/libISSMCore_la-PetscVec.lo CXX toolkits/petsc/objects/libISSMCore_la-PetscSolver.lo CXX toolkits/mumps/libISSMCore_la-MumpsSolve.lo CXX toolkits/gsl/libISSMCore_la-DenseGslSolve.lo CXX modules/CoordinateSystemTransformx/libISSMCore_la-CoordinateSystemTransformx.lo CXX modules/Damagex/libISSMCore_la-Damagex.lo CXX modules/Calvingx/libISSMCore_la-Calvingx.lo CXX modules/KillIcebergsx/libISSMCore_la-KillIcebergsx.lo CXX modules/GiaDeflectionCorex/libISSMCore_la-GiaDeflectionCorex.lo F77 modules/GiaDeflectionCorex/libISSMCore_la-distme.lo F77 modules/GiaDeflectionCorex/libISSMCore_la-freed.lo F77 modules/GiaDeflectionCorex/libISSMCore_la-ojrule.lo F77 modules/GiaDeflectionCorex/libISSMCore_la-pwise.lo F77 modules/GiaDeflectionCorex/libISSMCore_la-qwise.lo F77 modules/GiaDeflectionCorex/libISSMCore_la-stot.lo F77 modules/GiaDeflectionCorex/libISSMCore_la-what0.lo CXX modules/MeshPartitionx/libISSMCore_la-MeshPartitionx.lo CXX toolkits/metis/patches/libISSMCore_la-METIS_PartMeshNodalPatch.lo CXX classes/kriging/libISSMCore_la-Observations.lo CXX classes/kriging/libISSMCore_la-GaussianVariogram.lo CXX classes/kriging/libISSMCore_la-ExponentialVariogram.lo CXX classes/kriging/libISSMCore_la-SphericalVariogram.lo CXX classes/kriging/libISSMCore_la-PowerVariogram.lo CXX classes/kriging/libISSMCore_la-Quadtree.lo CXX classes/kriging/libISSMCore_la-Covertree.lo CXX classes/kriging/libISSMCore_la-Observation.lo CXX modules/Krigingx/libISSMCore_la-pKrigingx.lo CXXLD libISSMOverload.la ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' CXX shared/Threads/libISSMModules_la-LaunchThread.lo CXX shared/Threads/libISSMModules_la-PartitionRange.lo CXX shared/Exp/libISSMModules_la-exp.lo CXX shared/Triangle/libISSMModules_la-AssociateSegmentToElement.lo CXX shared/Triangle/libISSMModules_la-GridInsideHole.lo CXX shared/Triangle/libISSMModules_la-OrderSegments.lo CXX shared/Triangle/libISSMModules_la-SplitMeshForRifts.lo CXX shared/Triangle/libISSMModules_la-TriangleUtils.lo CXX modules/Trianglex/libISSMModules_la-Trianglex.lo CXX modules/ProcessRiftsx/libISSMModules_la-ProcessRiftsx.lo CXX modules/PointCloudFindNeighborsx/libISSMModules_la-PointCloudFindNeighborsx.lo CXX modules/PointCloudFindNeighborsx/libISSMModules_la-PointCloudFindNeighborsxt.lo CXX modules/InterpFromGridToMeshx/libISSMModules_la-InterpFromGridToMeshx.lo CXX modules/InterpFromMesh2dx/libISSMModules_la-InterpFromMesh2dx.lo CXX modules/InterpFromMesh2dx/libISSMModules_la-InterpFromMesh2dxt.lo CXX modules/InterpFromMeshToMesh3dx/libISSMModules_la-InterpFromMeshToMesh3dx.lo CXX modules/InterpFromMeshToGridx/libISSMModules_la-InterpFromMeshToGridx.lo CXX modules/MeshProfileIntersectionx/libISSMModules_la-MeshProfileIntersectionx.lo CXX modules/ContourToMeshx/libISSMModules_la-ContourToMeshx.lo CXX modules/ContourToMeshx/libISSMModules_la-ContourToMeshxt.lo CXX modules/ExpToLevelSetx/libISSMModules_la-ExpToLevelSetx.lo CXX modules/ExpToLevelSetx/libISSMModules_la-ExpToLevelSetxt.lo CXX modules/ContourToNodesx/libISSMModules_la-ContourToNodesx.lo CXX modules/DistanceToMaskBoundaryx/libISSMModules_la-DistanceToMaskBoundaryx.lo CXX modules/DistanceToMaskBoundaryx/libISSMModules_la-DistanceToMaskBoundaryxt.lo CXX modules/NodeConnectivityx/libISSMModules_la-NodeConnectivityx.lo CXX modules/ElementConnectivityx/libISSMModules_la-ElementConnectivityx.lo CXX modules/PropagateFlagsFromConnectivityx/libISSMModules_la-PropagateFlagsFromConnectivityx.lo CXX modules/Chacox/libISSMModules_la-Chacox.lo CXX modules/Chacox/libISSMModules_la-input_parse.lo CXX modules/Chacox/libISSMModules_la-chaco_seconds.lo CXX modules/Chacox/libISSMModules_la-user_params.lo CXXLD libISSMCore.la ./modules/Chacox/Chacox.cpp:56:24: warning: empty parentheses interpreted as a function declaration [-Wvexing-parse] double *smalloc(); /* safe version of malloc */ ^~ ./modules/Chacox/Chacox.cpp:56:24: note: replace parentheses with an initializer to declare a variable double *smalloc(); /* safe version of malloc */ ^~ = nullptr 1 warning generated. ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: could not create compact unwind for _what0_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD libISSMModules.la ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm_slc.exe CXXLD kriging.exe CXXLD issm.exe CXXLD issm_dakota.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0)dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack sizecould not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm_post.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size Making all in m make[3]: Nothing to be done for `all'. Making all in wrappers Making all in matlab CXX io/libISSMMatlab_la-CheckNumMatlabArguments.lo CXX io/libISSMMatlab_la-FetchMatlabData.lo CXX io/libISSMMatlab_la-WriteMatlabData.lo CXX io/libISSMApi_la-ApiPrintf.lo In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' In file included from #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h::15: 16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67:: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h: ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ : In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:In file included from 16: In file included from ./io/../../../c/classes/./classes.h:11./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: : In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h./io/../../../c/classes/./Vertex.h::612: : In file included from In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h./io/../../../c/classes/../toolkits/toolkits.h:6:: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from 15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h6:: 1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] :6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.hPETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4);: 8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376 ^ :/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes]: 299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^In file included from ./io/../../../c/classes/./classes.h: #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx)))11 : ^ In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: 6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.hIn file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h::6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] 11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: ^In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h: #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299In file included from :./io/FetchMatlabData.cpp:11: 67: In file included from note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT'./io/./matlabio.h #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ :16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2);11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h: ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h: #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: In file included from ./io/FetchMatlabData.cpp:11: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes]In file included from PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' ./io/./matlabio.h #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ :16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.hIn file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h::11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:611: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: : In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ :6: In file included from In file included from ./io/FetchMatlabData.cpp:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67:./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] :11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3);6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67 ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: : note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' note: #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from ./io/FetchMatlabData.cpp/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: :11: In file included from ./io/./matlabio.h:16: In file included from 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] ./io/../../../c/classes/./classes.hPETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2);: ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:1211: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from : In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67:1385 note: :expanded from macro 'PETSC_ATTRIBUTE_FORMAT'81: #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/FetchMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from In file included from ./io/../../../c/classes/./classes.h./io/ApiPrintf.cpp::1111: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: : In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.hexpanded from macro 'PETSC_ATTRIBUTE_FORMAT' :16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h: #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx)))6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h: ^6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/ApiPrintf.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/WriteMatlabData.cpp:11: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ./io/CheckNumMatlabArguments.cpp:5: In file included from ./io/./matlabio.h:16: In file included from ./io/../../../c/classes/./classes.h:11: In file included from ./io/../../../c/classes/./Vertex.h:12: In file included from ./io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ./io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. CXX ../BamgConvertMesh/BamgConvertMesh.lo 18 warnings generated. CXX ../BamgMesher/BamgMesher.lo 18 warnings generated. CXX ../BamgTriangulate/BamgTriangulate.lo In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgConvertMesh/BamgConvertMesh.cpp:4: In file included from ../BamgConvertMesh/./BamgConvertMesh.h:19: In file included from ../BamgConvertMesh/../bindings.h:19: In file included from ../BamgConvertMesh/.././matlab/io/matlabio.h:16: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgConvertMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../BamgTriangulate/BamgTriangulate.cpp:4: In file included from ../BamgTriangulate/./BamgTriangulate.h:19: In file included from ../BamgTriangulate/../bindings.h:19: In file included from ../BamgTriangulate/.././matlab/io/matlabio.h:16: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../BamgTriangulate/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. CXX ../ContourToMesh/ContourToMesh.lo 18 warnings generated. CXX ../ContourToNodes/ContourToNodes.lo CXX ../DistanceToMaskBoundary/DistanceToMaskBoundary.lo In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. CXX ../ElementConnectivity/ElementConnectivity.lo In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToMesh/ContourToMesh.cpp:6: In file included from ../ContourToMesh/./ContourToMesh.h:20: In file included from ../ContourToMesh/../bindings.h:19: In file included from ../ContourToMesh/.././matlab/io/matlabio.h:16: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] :78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.hIn file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: :11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h: :In file included from 1397../DistanceToMaskBoundary/./DistanceToMaskBoundary.h::9119:: In file included from warning: ../DistanceToMaskBoundary/../bindings.h'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ :19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ContourToNodes/ContourToNodes.cpp:5: In file included from ../ContourToNodes/./ContourToNodes.h:19: In file included from ../ContourToNodes/../bindings.h:19: In file included from ../ContourToNodes/.././matlab/io/matlabio.h:16: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ContourToNodes/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../DistanceToMaskBoundary/DistanceToMaskBoundary.cpp:5: In file included from ../DistanceToMaskBoundary/./DistanceToMaskBoundary.h:19: In file included from ../DistanceToMaskBoundary/../bindings.h:19: In file included from ../DistanceToMaskBoundary/.././matlab/io/matlabio.h:16: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../DistanceToMaskBoundary/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ElementConnectivity/ElementConnectivity.cpp:5: In file included from ../ElementConnectivity/./ElementConnectivity.h:20: In file included from ../ElementConnectivity/../bindings.h:19: In file included from ../ElementConnectivity/.././matlab/io/matlabio.h:16: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ElementConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. CXX ../ExpSimplify/ExpSimplify.lo 18 warnings generated. CXX ../ExpToLevelSet/ExpToLevelSet.lo 18 warnings generated. CXX ../InterpFromGridToMesh/InterpFromGridToMesh.lo 18 warnings generated. CXX ../InterpFromMesh2d/InterpFromMesh2d.lo In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpSimplify/ExpSimplify.cpp:4: In file included from ../ExpSimplify/./ExpSimplify.h:19: In file included from ../ExpSimplify/../bindings.h:19: In file included from ../ExpSimplify/.././matlab/io/matlabio.h:16: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpSimplify/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70:In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h: In file included from :8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] ../ExpToLevelSet/./ExpToLevelSet.h:PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ :299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.hIn file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ :19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes]In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' : In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from ../ExpToLevelSet/ExpToLevelSet.cppIn file included from :/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:66: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from : In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h8:11: : /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:warning: 12: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes]In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] 299PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ :67:In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' :15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:In file included from 16: ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: 11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' :15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from In file included from ../ExpToLevelSet/ExpToLevelSet.cpp:6: In file included from ../ExpToLevelSet/./ExpToLevelSet.h:20: In file included from ../ExpToLevelSet/../bindings.h:19: In file included from ../ExpToLevelSet/.././matlab/io/matlabio.h:16../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ExpToLevelSet/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from :6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' 12 #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ : In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromGridToMesh/InterpFromGridToMesh.cpp:5: In file included from ../InterpFromGridToMesh/./InterpFromGridToMesh.h:19: In file included from ../InterpFromGridToMesh/../bindings.h:19: In file included from ../InterpFromGridToMesh/.././matlab/io/matlabio.h:16: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromGridToMesh/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMesh2d/InterpFromMesh2d.cpp:5: In file included from ../InterpFromMesh2d/./InterpFromMesh2d.h:19: In file included from ../InterpFromMesh2d/../bindings.h:19: In file included from ../InterpFromMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. CXX ../InterpFromMeshToGrid/InterpFromMeshToGrid.lo 18 warnings generated. CXX ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.lo 18 warnings generated. CXX ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.lo 18 warnings generated. CXX ../IssmConfig/IssmConfig.lo In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from 8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT'In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h: #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToGrid/InterpFromMeshToGrid.cpp:5: In file included from ../InterpFromMeshToGrid/./InterpFromMeshToGrid.h:19: In file included from ../InterpFromMeshToGrid/../bindings.h:19: In file included from ../InterpFromMeshToGrid/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToGrid/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh2d/InterpFromMeshToMesh2d.cpp:4: In file included from ../InterpFromMeshToMesh2d/./InterpFromMeshToMesh2d.h:20: In file included from ../InterpFromMeshToMesh2d/../bindings.h:19: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh2d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../InterpFromMeshToMesh3d/InterpFromMeshToMesh3d.cpp:5: In file included from ../InterpFromMeshToMesh3d/./InterpFromMeshToMesh3d.h:19: In file included from ../InterpFromMeshToMesh3d/../bindings.h:19: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/matlabio.h:16: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../InterpFromMeshToMesh3d/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../IssmConfig/IssmConfig.cpp:11: In file included from ../IssmConfig/./IssmConfig.h:20: In file included from ../IssmConfig/../bindings.h:19: In file included from ../IssmConfig/.././matlab/io/matlabio.h:16: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../IssmConfig/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. CXX ../M1qn3/M1qn3.lo 18 warnings generated. CXX ../MeshPartition/MeshPartition.lo 18 warnings generated. CXX ../MeshProfileIntersection/MeshProfileIntersection.lo 18 warnings generated. CXX ../NodeConnectivity/NodeConnectivity.lo In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: In file included from ../M1qn3/M1qn3.cpp/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] :5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../M1qn3/M1qn3.cpp:5: In file included from ../M1qn3/./M1qn3.h:19: In file included from ../M1qn3/../bindings.h:19: In file included from ../M1qn3/.././matlab/io/matlabio.h:16: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../M1qn3/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../M1qn3/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshPartition/MeshPartition.cpp:5: In file included from ../MeshPartition/./MeshPartition.h:19: In file included from ../MeshPartition/../bindings.h:19: In file included from ../MeshPartition/.././matlab/io/matlabio.h:16: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshPartition/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../MeshProfileIntersection/MeshProfileIntersection.cpp:18: In file included from ../MeshProfileIntersection/./MeshProfileIntersection.h:19: In file included from ../MeshProfileIntersection/../bindings.h:19: In file included from ../MeshProfileIntersection/.././matlab/io/matlabio.h:16: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../MeshProfileIntersection/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../NodeConnectivity/NodeConnectivity.cpp:5: In file included from ../NodeConnectivity/./NodeConnectivity.h:23: In file included from ../NodeConnectivity/../bindings.h:19: In file included from ../NodeConnectivity/.././matlab/io/matlabio.h:16: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../NodeConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. CXX ../PointCloudFindNeighbors/PointCloudFindNeighbors.lo 18 warnings generated. 18 warnings generated. 18 warnings generated. CXX ../ProcessRifts/ProcessRifts.lo CXX ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.lo CXX ../Scotch/Scotch.lo In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h../Scotch/.././matlab/io/../../../c/classes/./classes.h::11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:1216: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: : In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: 1186/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127::127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] 68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.hIn file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h::6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from 11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from In file included from ../PointCloudFindNeighbors/PointCloudFindNeighbors.cpp:5: In file included from ../PointCloudFindNeighbors/./PointCloudFindNeighbors.h:19: In file included from ../PointCloudFindNeighbors/../bindings.h:19: In file included from ../PointCloudFindNeighbors/.././matlab/io/matlabio.h:16: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PointCloudFindNeighbors/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] ../Scotch/Scotch.cpp:10: In file included from PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from In file included from ../Scotch/Scotch.cpp../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h::10: 11In file included from : ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT'In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cppIn file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:: In file included from ../Scotch/../bindings.h:19: 15In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes]: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.hPETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h::11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: 299:67/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72:: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp::8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from 8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); : In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ 11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h6:: 299In file included from :/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h67::6 : note: In file included from expanded from macro 'PETSC_ATTRIBUTE_FORMAT'/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h :6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6In file included from ../ProcessRifts/ProcessRifts.cpp:: 5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h: :6In file included from : ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.hIn file included from :/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h11:: 8In file included from : ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:: 15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:warning: 11'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes]: PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ : In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' 16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../ProcessRifts/ProcessRifts.cpp:5: In file included from ../ProcessRifts/./ProcessRifts.h:19: In file included from ../ProcessRifts/../bindings.h:19: In file included from ../ProcessRifts/.././matlab/io/matlabio.h:16: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../ProcessRifts/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Scotch/Scotch.cpp:10: In file included from ../Scotch/./Scotch.h:8: In file included from ../Scotch/../bindings.h:19: In file included from ../Scotch/.././matlab/io/matlabio.h:16: In file included from ../Scotch/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Scotch/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Scotch/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../PropagateFlagsFromConnectivity/PropagateFlagsFromConnectivity.cpp:5: In file included from ../PropagateFlagsFromConnectivity/./PropagateFlagsFromConnectivity.h:19: In file included from ../PropagateFlagsFromConnectivity/../bindings.h:19: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/matlabio.h:16: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../PropagateFlagsFromConnectivity/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. CXX ../Triangle/Triangle.lo 18 warnings generated. CXX ../Chaco/Chaco.lo 18 warnings generated. CXX ../Kriging/Kriging.lo 18 warnings generated. CXX ../CoordTransform/CoordTransform.lo In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ :15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:: 19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))):19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ^ ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1127:127: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PetscError(MPI_Comm, int, const char *, const char *, PetscErrorCode, PetscErrorType, const char *, ...) PETSC_ATTRIBUTE_COLD PETSC_ATTRIBUTE_FORMAT(7, 8); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' In file included from ../Triangle/Triangle.cpp:5: In file included from ../Triangle/./Triangle.h:25: In file included from ../Triangle/../bindings.h:19: In file included from ../Triangle/.././matlab/io/matlabio.h:16: In file included from ../Triangle/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Triangle/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Triangle/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1108: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscerror.h:1186:68: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscErrorPrintf)(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1363:77: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode (*PetscHelpPrintf)(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:14:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscInfo_Private(const char[], PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1368: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petsclog.h:262:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscLogObjectState(PetscObject, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Chaco/Chaco.cpp:11: In file included from ../Chaco/./Chaco.h:20: In file included from ../Chaco/../bindings.h:19: In file included from ../Chaco/.././matlab/io/matlabio.h:16: In file included from ../Chaco/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Chaco/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Chaco/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../Kriging/Kriging.cpp:4: In file included from ../Kriging/./Kriging.h:19: In file included from ../Kriging/../bindings.h:19: In file included from ../Kriging/.././matlab/io/matlabio.h:16: In file included from ../Kriging/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../Kriging/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../Kriging/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1376:79: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1378:70: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1379:78: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintf(char *, size_t, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1380:93: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSNPrintfCount(char *, size_t, const char[], size_t *, ...) PETSC_ATTRIBUTE_FORMAT(3, 5); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1383:72: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfDefault(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1384:69: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscErrorPrintfNone(const char[], ...) PETSC_ATTRIBUTE_FORMAT(1, 2); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1385:81: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscHelpPrintfDefault(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1396:82: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedPrintf(MPI_Comm, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:8: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscsys.h:1397:91: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscSynchronizedFPrintf(MPI_Comm, FILE *, const char[], ...) PETSC_ATTRIBUTE_FORMAT(3, 4); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:230:84: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIIPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:231:96: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerASCIISynchronizedPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:248:86: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerStringSPrintf(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ In file included from ../CoordTransform/CoordTransform.cpp:6: In file included from ../CoordTransform/./CoordTransform.h:20: In file included from ../CoordTransform/../bindings.h:19: In file included from ../CoordTransform/.././matlab/io/matlabio.h:16: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./classes.h:11: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/./Vertex.h:12: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/toolkits.h:15: In file included from ../CoordTransform/.././matlab/io/../../../c/classes/../toolkits/./petsc/petscincludes.h:11: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscksp.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscpc.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmat.h:6: In file included from /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscvec.h:12: /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscviewer.h:278:88: warning: 'format' attribute argument not supported: mexPrintf_800 [-Wignored-attributes] PETSC_EXTERN PetscErrorCode PetscViewerVUPrintDeferred(PetscViewer, const char[], ...) PETSC_ATTRIBUTE_FORMAT(2, 3); ^ /Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/petsc/install/include/petscmacros.h:299:67: note: expanded from macro 'PETSC_ATTRIBUTE_FORMAT' #define PETSC_ATTRIBUTE_FORMAT(strIdx, vaArgIdx) __attribute__((format(printf, strIdx, vaArgIdx))) ^ 18 warnings generated. 18 warnings generated. CXXLD libISSMMatlab.la CXXLD libISSMApi.la 18 warnings generated. 18 warnings generated. ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD BamgMesher_matlab.la CXXLD BamgConvertMesh_matlab.la CXXLD BamgTriangulate_matlab.la CXXLD ContourToMesh_matlab.la ld: warning: ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib'directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD ContourToNodes_matlab.la CXXLD DistanceToMaskBoundary_matlab.la CXXLD ElementConnectivity_matlab.la CXXLD ExpSimplify_matlab.la ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD ExpToLevelSet_matlab.la CXXLD InterpFromGridToMesh_matlab.la CXXLD InterpFromMesh2d_matlab.la CXXLD InterpFromMeshToGrid_matlab.la ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD InterpFromMeshToMesh2d_matlab.la CXXLD InterpFromMeshToMesh3d_matlab.la CXXLD IssmConfig_matlab.la CXXLD M1qn3_matlab.la ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0)ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack sizecould not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD MeshPartition_matlab.la CXXLD MeshProfileIntersection_matlab.la CXXLD NodeConnectivity_matlab.la CXXLD PointCloudFindNeighbors_matlab.la ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD ProcessRifts_matlab.la CXXLD PropagateFlagsFromConnectivity_matlab.la CXXLD Scotch_matlab.la CXXLD Triangle_matlab.la ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0)ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0)ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD Chaco_matlab.la CXXLD Kriging_matlab.la CXXLD CoordTransform_matlab.la ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0)ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack sizeld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size make[4]: Nothing to be done for `all-am'. make[3]: Nothing to be done for `all-am'. make[2]: Nothing to be done for `all-am'. Making install in src Making install in c CXXLD issm.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm_slc.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD kriging.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm_dakota.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm_post.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm_slc.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD kriging.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm_dakota.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size CXXLD issm_post.exe ld: warning: directory not found for option '-L/usr/local/Cellar/sqlite/3.45.1/lib' ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnidr.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libteuchos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdakota_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpecos_src.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mods.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liblhs_mod.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdfftpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_cubature.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_rules.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsurfpack_fortran.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libqueso.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmga.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: object file (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libsparsegrid.a(sandia_sgmgg.cpp.o)) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libconmin.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libddace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libdream.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libfsudace.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libhopspack.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libncsuopt.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libcport.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libnomad.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/liboptpp.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libpsuade.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: dylib (/Users/jenkins/workspace/macOS-Intel-Examples/externalpackages/dakota/install/lib/libamplsolver.dylib) was built for newer macOS version (12.7) than being linked (12.0) ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_parallel_analysis_MOD_dmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_lu_m_MOD_dmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_fac2_ldlt_m_MOD_dmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_parallel_analysis_MOD_cmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_lu_m_MOD_cmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_fac2_ldlt_m_MOD_cmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_lr_data_m_MOD_dmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___dmumps_save_restore_MOD_dmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_lr_data_m_MOD_cmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___cmumps_save_restore_MOD_cmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_parsymfact_lumat: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_parallel_analysis_MOD_zmumps_ana_f_par: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_lu_m_MOD_zmumps_fac2_lu: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_fac2_ldlt_m_MOD_zmumps_fac2_ldlt: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _chseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_lr_data_m_MOD_zmumps_save_restore_blr_struc: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save_restore_structure: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_restore: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for ___zmumps_save_restore_MOD_zmumps_save: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_ana_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_fac_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zmumps_solve_driver_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _cunmrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _dpbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sgehrd_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _shseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormlq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormql_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrq_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _sormrz_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _spbtrf_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zhseqr_: stack subq instruction is too different from dwarf stack size ld: warning: could not create compact unwind for _zpbtrf_: stack subq instruction is too different from dwarf stack size ../.././aux-config/install-sh -c -d '/Users/jenkins/workspace/macOS-Intel-Examples/lib' /bin/sh ../../libtool --mode=install /usr/bin/install -c libISSMCore.la libISSMOverload.la libISSMModules.la '/Users/jenkins/workspace/macOS-Intel-Examples/lib' libtool: install: /usr/bin/install -c .libs/libISSMCore.dylib /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMCore.dylib libtool: install: /usr/bin/install -c .libs/libISSMCore.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMCore.la libtool: install: /usr/bin/install -c .libs/libISSMOverload.dylib /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMOverload.dylib libtool: install: /usr/bin/install -c .libs/libISSMOverload.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMOverload.la libtool: install: /usr/bin/install -c .libs/libISSMModules.dylib /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMModules.dylib libtool: install: /usr/bin/install -c .libs/libISSMModules.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMModules.la ../.././aux-config/install-sh -c -d '/Users/jenkins/workspace/macOS-Intel-Examples/bin' /bin/sh ../../libtool --mode=install /usr/bin/install -c issm.exe issm_slc.exe kriging.exe issm_dakota.exe issm_post.exe '/Users/jenkins/workspace/macOS-Intel-Examples/bin' libtool: install: /usr/bin/install -c .libs/issm.exe /Users/jenkins/workspace/macOS-Intel-Examples/bin/issm.exe libtool: install: /usr/bin/install -c .libs/issm_slc.exe /Users/jenkins/workspace/macOS-Intel-Examples/bin/issm_slc.exe libtool: install: /usr/bin/install -c .libs/kriging.exe /Users/jenkins/workspace/macOS-Intel-Examples/bin/kriging.exe libtool: install: /usr/bin/install -c .libs/issm_dakota.exe /Users/jenkins/workspace/macOS-Intel-Examples/bin/issm_dakota.exe libtool: install: /usr/bin/install -c .libs/issm_post.exe /Users/jenkins/workspace/macOS-Intel-Examples/bin/issm_post.exe make[3]: Nothing to be done for `install-data-am'. Making install in m ../.././aux-config/install-sh -c -d '/Users/jenkins/workspace/macOS-Intel-Examples/bin' make[3]: Nothing to be done for `install-data-am'. Making install in wrappers Making install in matlab ../../.././aux-config/install-sh -c -d '/Users/jenkins/workspace/macOS-Intel-Examples/lib' /bin/sh ../../../libtool --mode=install /usr/bin/install -c libISSMMatlab.la libISSMApi.la BamgConvertMesh_matlab.la BamgMesher_matlab.la BamgTriangulate_matlab.la ContourToMesh_matlab.la ContourToNodes_matlab.la DistanceToMaskBoundary_matlab.la ElementConnectivity_matlab.la ExpSimplify_matlab.la ExpToLevelSet_matlab.la InterpFromGridToMesh_matlab.la InterpFromMesh2d_matlab.la InterpFromMeshToGrid_matlab.la InterpFromMeshToMesh2d_matlab.la InterpFromMeshToMesh3d_matlab.la IssmConfig_matlab.la M1qn3_matlab.la MeshPartition_matlab.la MeshProfileIntersection_matlab.la NodeConnectivity_matlab.la PointCloudFindNeighbors_matlab.la ProcessRifts_matlab.la PropagateFlagsFromConnectivity_matlab.la Scotch_matlab.la Triangle_matlab.la Chaco_matlab.la Kriging_matlab.la CoordTransform_matlab.la '/Users/jenkins/workspace/macOS-Intel-Examples/lib' libtool: install: /usr/bin/install -c .libs/libISSMMatlab.dylib /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMMatlab.dylib libtool: install: /usr/bin/install -c .libs/libISSMMatlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMMatlab.la libtool: install: /usr/bin/install -c .libs/libISSMApi.dylib /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMApi.dylib libtool: install: /usr/bin/install -c .libs/libISSMApi.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/libISSMApi.la libtool: install: /usr/bin/install -c .libs/BamgConvertMesh_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/BamgConvertMesh_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/BamgConvertMesh_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/BamgConvertMesh_matlab.la libtool: install: /usr/bin/install -c .libs/BamgMesher_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/BamgMesher_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/BamgMesher_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/BamgMesher_matlab.la libtool: install: /usr/bin/install -c .libs/BamgTriangulate_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/BamgTriangulate_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/BamgTriangulate_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/BamgTriangulate_matlab.la libtool: install: /usr/bin/install -c .libs/ContourToMesh_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/ContourToMesh_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/ContourToMesh_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/ContourToMesh_matlab.la libtool: install: /usr/bin/install -c .libs/ContourToNodes_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/ContourToNodes_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/ContourToNodes_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/ContourToNodes_matlab.la libtool: install: /usr/bin/install -c .libs/DistanceToMaskBoundary_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/DistanceToMaskBoundary_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/DistanceToMaskBoundary_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/DistanceToMaskBoundary_matlab.la libtool: install: /usr/bin/install -c .libs/ElementConnectivity_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/ElementConnectivity_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/ElementConnectivity_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/ElementConnectivity_matlab.la libtool: install: /usr/bin/install -c .libs/ExpSimplify_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/ExpSimplify_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/ExpSimplify_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/ExpSimplify_matlab.la libtool: install: /usr/bin/install -c .libs/ExpToLevelSet_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/ExpToLevelSet_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/ExpToLevelSet_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/ExpToLevelSet_matlab.la libtool: install: /usr/bin/install -c .libs/InterpFromGridToMesh_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromGridToMesh_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/InterpFromGridToMesh_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromGridToMesh_matlab.la libtool: install: /usr/bin/install -c .libs/InterpFromMesh2d_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromMesh2d_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/InterpFromMesh2d_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromMesh2d_matlab.la libtool: install: /usr/bin/install -c .libs/InterpFromMeshToGrid_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromMeshToGrid_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/InterpFromMeshToGrid_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromMeshToGrid_matlab.la libtool: install: /usr/bin/install -c .libs/InterpFromMeshToMesh2d_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromMeshToMesh2d_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/InterpFromMeshToMesh2d_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromMeshToMesh2d_matlab.la libtool: install: /usr/bin/install -c .libs/InterpFromMeshToMesh3d_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromMeshToMesh3d_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/InterpFromMeshToMesh3d_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/InterpFromMeshToMesh3d_matlab.la libtool: install: /usr/bin/install -c .libs/IssmConfig_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/IssmConfig_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/IssmConfig_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/IssmConfig_matlab.la libtool: install: /usr/bin/install -c .libs/M1qn3_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/M1qn3_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/M1qn3_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/M1qn3_matlab.la libtool: install: /usr/bin/install -c .libs/MeshPartition_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/MeshPartition_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/MeshPartition_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/MeshPartition_matlab.la libtool: install: /usr/bin/install -c .libs/MeshProfileIntersection_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/MeshProfileIntersection_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/MeshProfileIntersection_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/MeshProfileIntersection_matlab.la libtool: install: /usr/bin/install -c .libs/NodeConnectivity_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/NodeConnectivity_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/NodeConnectivity_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/NodeConnectivity_matlab.la libtool: install: /usr/bin/install -c .libs/PointCloudFindNeighbors_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/PointCloudFindNeighbors_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/PointCloudFindNeighbors_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/PointCloudFindNeighbors_matlab.la libtool: install: /usr/bin/install -c .libs/ProcessRifts_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/ProcessRifts_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/ProcessRifts_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/ProcessRifts_matlab.la libtool: install: /usr/bin/install -c .libs/PropagateFlagsFromConnectivity_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/PropagateFlagsFromConnectivity_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/PropagateFlagsFromConnectivity_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/PropagateFlagsFromConnectivity_matlab.la libtool: install: /usr/bin/install -c .libs/Scotch_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/Scotch_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/Scotch_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/Scotch_matlab.la libtool: install: /usr/bin/install -c .libs/Triangle_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/Triangle_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/Triangle_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/Triangle_matlab.la libtool: install: /usr/bin/install -c .libs/Chaco_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/Chaco_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/Chaco_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/Chaco_matlab.la libtool: install: /usr/bin/install -c .libs/Kriging_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/Kriging_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/Kriging_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/Kriging_matlab.la libtool: install: /usr/bin/install -c .libs/CoordTransform_matlab.mexmaci64 /Users/jenkins/workspace/macOS-Intel-Examples/lib/CoordTransform_matlab.mexmaci64 libtool: install: /usr/bin/install -c .libs/CoordTransform_matlab.lai /Users/jenkins/workspace/macOS-Intel-Examples/lib/CoordTransform_matlab.la make[4]: Nothing to be done for `install-data-am'. make[4]: Nothing to be done for `install-exec-am'. make[4]: Nothing to be done for `install-data-am'. make[3]: Nothing to be done for `install-exec-am'. make[3]: Nothing to be done for `install-data-am'. make[2]: Nothing to be done for `install-exec-am'. make[2]: Nothing to be done for `install-data-am'. Testing example: AMR < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Coarse mesh Construction of a mesh from a given geometry Step 2: Parameterization boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found Step 3: Solve! checking model consistency marshalling file mismip.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: iteration 1/500 time [yr]: 1.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 2/500 time [yr]: 2.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 3/500 time [yr]: 3.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 4/500 time [yr]: 4.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 5/500 time [yr]: 5.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 6/500 time [yr]: 6.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 7/500 time [yr]: 7.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 8/500 time [yr]: 8.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 9/500 time [yr]: 9.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 10/500 time [yr]: 10.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 11/500 time [yr]: 11.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 12/500 time [yr]: 12.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 13/500 time [yr]: 13.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 14/500 time [yr]: 14.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 15/500 time [yr]: 15.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 16/500 time [yr]: 16.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 17/500 time [yr]: 17.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 18/500 time [yr]: 18.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 19/500 time [yr]: 19.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 20/500 time [yr]: 20.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 21/500 time [yr]: 21.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 22/500 time [yr]: 22.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 23/500 time [yr]: 23.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 24/500 time [yr]: 24.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 25/500 time [yr]: 25.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 26/500 time [yr]: 26.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 27/500 time [yr]: 27.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 28/500 time [yr]: 28.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 29/500 time [yr]: 29.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 30/500 time [yr]: 30.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 31/500 time [yr]: 31.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 32/500 time [yr]: 32.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 33/500 time [yr]: 33.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 34/500 time [yr]: 34.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 35/500 time [yr]: 35.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 36/500 time [yr]: 36.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 37/500 time [yr]: 37.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 38/500 time [yr]: 38.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 39/500 time [yr]: 39.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 40/500 time [yr]: 40.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 41/500 time [yr]: 41.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 42/500 time [yr]: 42.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 43/500 time [yr]: 43.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 44/500 time [yr]: 44.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 45/500 time [yr]: 45.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 46/500 time [yr]: 46.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 47/500 time [yr]: 47.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 48/500 time [yr]: 48.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 49/500 time [yr]: 49.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 50/500 time [yr]: 50.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 51/500 time [yr]: 51.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 52/500 time [yr]: 52.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 53/500 time [yr]: 53.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 54/500 time [yr]: 54.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 55/500 time [yr]: 55.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 56/500 time [yr]: 56.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 57/500 time [yr]: 57.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 58/500 time [yr]: 58.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 59/500 time [yr]: 59.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 60/500 time [yr]: 60.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 61/500 time [yr]: 61.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 62/500 time [yr]: 62.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 63/500 time [yr]: 63.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 64/500 time [yr]: 64.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 65/500 time [yr]: 65.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 66/500 time [yr]: 66.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 67/500 time [yr]: 67.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 68/500 time [yr]: 68.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 69/500 time [yr]: 69.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 70/500 time [yr]: 70.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 71/500 time [yr]: 71.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 72/500 time [yr]: 72.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 73/500 time [yr]: 73.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 74/500 time [yr]: 74.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 75/500 time [yr]: 75.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 76/500 time [yr]: 76.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 77/500 time [yr]: 77.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 78/500 time [yr]: 78.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 79/500 time [yr]: 79.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 80/500 time [yr]: 80.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 81/500 time [yr]: 81.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 82/500 time [yr]: 82.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 83/500 time [yr]: 83.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 84/500 time [yr]: 84.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 85/500 time [yr]: 85.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 86/500 time [yr]: 86.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 87/500 time [yr]: 87.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 88/500 time [yr]: 88.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 89/500 time [yr]: 89.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 90/500 time [yr]: 90.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 91/500 time [yr]: 91.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 92/500 time [yr]: 92.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 93/500 time [yr]: 93.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 94/500 time [yr]: 94.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 95/500 time [yr]: 95.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 96/500 time [yr]: 96.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 97/500 time [yr]: 97.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 98/500 time [yr]: 98.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 99/500 time [yr]: 99.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 100/500 time [yr]: 100.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 101/500 time [yr]: 101.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 102/500 time [yr]: 102.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 103/500 time [yr]: 103.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 104/500 time [yr]: 104.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 105/500 time [yr]: 105.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 106/500 time [yr]: 106.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 107/500 time [yr]: 107.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 108/500 time [yr]: 108.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module 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mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 144/500 time [yr]: 144.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 145/500 time [yr]: 145.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 146/500 time [yr]: 146.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 206/500 time [yr]: 206.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 207/500 time [yr]: 207.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 208/500 time [yr]: 208.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 268/500 time [yr]: 268.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 269/500 time [yr]: 269.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 270/500 time [yr]: 270.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh 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computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 292/500 time [yr]: 292.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 293/500 time [yr]: 293.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 294/500 time [yr]: 294.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 299/500 time [yr]: 299.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 300/500 time [yr]: 300.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 301/500 time [yr]: 301.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 306/500 time [yr]: 306.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 307/500 time [yr]: 307.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 308/500 time [yr]: 308.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions 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step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 320/500 time [yr]: 320.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 321/500 time [yr]: 321.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 322/500 time [yr]: 322.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 323/500 time [yr]: 323.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 324/500 time [yr]: 324.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 325/500 time [yr]: 325.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 330/500 time [yr]: 330.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 331/500 time [yr]: 331.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 332/500 time [yr]: 332.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 354/500 time [yr]: 354.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 355/500 time [yr]: 355.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 356/500 time [yr]: 356.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module 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transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 361/500 time [yr]: 361.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 362/500 time [yr]: 362.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 363/500 time [yr]: 363.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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iteration 388/500 time [yr]: 388.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 389/500 time [yr]: 389.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 390/500 time [yr]: 390.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 391/500 time [yr]: 391.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 392/500 time [yr]: 392.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 393/500 time [yr]: 393.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 394/500 time [yr]: 394.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 395/500 time [yr]: 395.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 396/500 time [yr]: 396.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 397/500 time [yr]: 397.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 398/500 time [yr]: 398.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 399/500 time [yr]: 399.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 400/500 time [yr]: 400.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 401/500 time [yr]: 401.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 402/500 time [yr]: 402.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 403/500 time [yr]: 403.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 404/500 time [yr]: 404.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 405/500 time [yr]: 405.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 406/500 time [yr]: 406.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 407/500 time [yr]: 407.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 408/500 time [yr]: 408.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 409/500 time [yr]: 409.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 410/500 time [yr]: 410.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 411/500 time [yr]: 411.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 412/500 time [yr]: 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computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 416/500 time [yr]: 416.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 417/500 time [yr]: 417.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 418/500 time [yr]: 418.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 419/500 time [yr]: 419.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 420/500 time [yr]: 420.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 421/500 time [yr]: 421.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 422/500 time [yr]: 422.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 423/500 time [yr]: 423.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 424/500 time [yr]: 424.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 425/500 time [yr]: 425.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 426/500 time [yr]: 426.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 427/500 time [yr]: 427.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 428/500 time [yr]: 428.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 429/500 time [yr]: 429.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 430/500 time [yr]: 430.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 431/500 time [yr]: 431.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 432/500 time [yr]: 432.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 433/500 time [yr]: 433.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 434/500 time [yr]: 434.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 435/500 time [yr]: 435.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 436/500 time [yr]: 436.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 437/500 time [yr]: 437.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 438/500 time [yr]: 438.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 439/500 time [yr]: 439.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 440/500 time [yr]: 440.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 441/500 time [yr]: 441.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 442/500 time [yr]: 442.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 443/500 time [yr]: 443.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 444/500 time [yr]: 444.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 445/500 time [yr]: 445.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 446/500 time [yr]: 446.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 447/500 time [yr]: 447.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 448/500 time [yr]: 448.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 449/500 time [yr]: 449.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 450/500 time [yr]: 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 454/500 time [yr]: 454.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 455/500 time [yr]: 455.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 456/500 time [yr]: 456.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 457/500 time [yr]: 457.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 458/500 time [yr]: 458.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 459/500 time [yr]: 459.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 460/500 time [yr]: 460.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 461/500 time [yr]: 461.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 462/500 time [yr]: 462.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 463/500 time [yr]: 463.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 464/500 time [yr]: 464.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 465/500 time [yr]: 465.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 466/500 time [yr]: 466.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 467/500 time [yr]: 467.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 468/500 time [yr]: 468.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 469/500 time [yr]: 469.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 470/500 time [yr]: 470.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 471/500 time [yr]: 471.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 472/500 time [yr]: 472.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 473/500 time [yr]: 473.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 474/500 time [yr]: 474.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 475/500 time [yr]: 475.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 476/500 time [yr]: 476.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 477/500 time [yr]: 477.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 478/500 time [yr]: 478.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 479/500 time [yr]: 479.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 480/500 time [yr]: 480.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 481/500 time [yr]: 481.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 482/500 time [yr]: 482.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 483/500 time [yr]: 483.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 484/500 time [yr]: 484.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 485/500 time [yr]: 485.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 486/500 time [yr]: 486.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 487/500 time [yr]: 487.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 492/500 time [yr]: 492.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 493/500 time [yr]: 493.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 494/500 time [yr]: 494.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 495/500 time [yr]: 495.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 496/500 time [yr]: 496.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 497/500 time [yr]: 497.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 498/500 time [yr]: 498.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 499/500 time [yr]: 499.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 500/500 time [yr]: 500.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results write lock file: FemModel initialization elapsed time: 0.063201 Total Core solution elapsed time: 182.062 Linear solver elapsed time: 56.1064 (31%) Total elapsed time: 0 hrs 3 min 2 sec loading results from cluster [Warning: Directory already exists.] [> In AMRexportVTK (line 17) In runme (line 68)] SUCCESS Directory contains datasets only; no example to run. Testing example: EsaGRACE < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Global mesh creation Info : Running 'gmsh -2 sphere.geo' [Gmsh 4.12.2-git-6a36f0e, 1 node, max. 1 thread] Info : Started on Tue Jul 30 21:46:06 2024 Info : Reading 'sphere.geo'... Info : Done reading 'sphere.geo' Info : Meshing 1D... Info : [ 0%] Meshing curve 1 (Circle) Info : [ 10%] Meshing curve 2 (Circle) Info : [ 20%] Meshing curve 3 (Circle) Info : [ 30%] Meshing curve 4 (Circle) Info : [ 40%] Meshing curve 5 (Circle) Info : [ 50%] Meshing curve 6 (Circle) Info : [ 50%] Meshing curve 7 (Circle) Info : [ 60%] Meshing curve 8 (Circle) Info : [ 70%] Meshing curve 9 (Circle) Info : [ 80%] Meshing curve 10 (Circle) Info : [ 90%] Meshing curve 11 (Circle) Info : [100%] Meshing curve 12 (Circle) Info : Done meshing 1D (Wall 0.00228873s, CPU 0.001929s) Info : Meshing 2D... Info : [ 0%] Meshing surface 14 (Surface, MeshAdapt) Info : [ 20%] Meshing surface 16 (Surface, MeshAdapt) Info : [ 30%] Meshing surface 18 (Surface, MeshAdapt) Info : [ 40%] Meshing surface 20 (Surface, MeshAdapt) Info : [ 50%] Meshing surface 22 (Surface, MeshAdapt) Info : [ 70%] Meshing surface 24 (Surface, MeshAdapt) Info : [ 80%] Meshing surface 26 (Surface, MeshAdapt) Info : [ 90%] Meshing surface 28 (Surface, MeshAdapt) Info : Done meshing 2D (Wall 21.7466s, CPU 21.6615s) Info : 7669 nodes 15747 elements Info : Writing 'sphere.msh'... Info : Done writing 'sphere.msh' Info : Stopped on Tue Jul 30 21:46:28 2024 (From start: Wall 21.829s, CPU 21.7461s) gmtmask: num vertices 7668 gmtmask: done 2024-07-30 21:46:32.754 MATLAB[47452:144787346] XType: com.apple.fonts is not accessible. 2024-07-30 21:46:32.754 MATLAB[47452:144787346] XType: XTFontStaticRegistry is enabled. 2024-07-30 21:46:33.840 MATLAB[47452:144787346] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:46:33.841 MATLAB[47452:144787346] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 21:46:33.843 MATLAB[47452:144787346] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:46:33.850 MATLAB[47452:144787346] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:46:33.850 MATLAB[47452:144787346] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. Step 2: Define loads in meters of ice height equivalent 1 of 1 months done! Step 3: Parameterization Step 4: Solve Esa solver checking model consistency marshalling file EsaGRACE.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) starting model processor creating datasets for analysis EsaAnalysis updating elements and materials for control parameters updating elements and materials for uncertainty quantification creating output definitions done with model processor Processing finite element model of analysis EsaAnalysis: toolkits Options set for analysis: EsaAnalysis configuring element and loads Configuring elements... Configuring loads... Configuring materials... Configuring inputs... detecting active vertices resolving node constraints creating nodal degrees of freedom Renumbering degrees of freedom call computational core: computing elastic adjustment toolkits Options set for analysis: EsaAnalysis computing elastic geodetic core write lock file: FemModel initialization elapsed time: 0.159279 Total Core solution elapsed time: 7.24701 Linear solver elapsed time: 0 (0%) Total elapsed time: 0 hrs 0 min 7 sec WARNING! There are options you set that were not used! WARNING! could be spelling mistake, etc! There are 7 unused database options. They are: Option left: name:-ksp_type value: preonly source: code Option left: name:-mat_mumps_icntl_14 value: 120 source: code Option left: name:-mat_mumps_icntl_28 value: 2 source: code Option left: name:-mat_mumps_icntl_29 value: 2 source: code Option left: name:-mat_type value: mpiaij source: code Option left: name:-pc_factor_mat_solver_type value: mumps source: code Option left: name:-pc_type value: lu source: code loading results from cluster Step 5: Plot solutions SUCCESS Testing example: EsaWahr < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation 2024-07-30 21:47:14.546 MATLAB[49870:144791093] XType: com.apple.fonts is not accessible. 2024-07-30 21:47:14.546 MATLAB[49870:144791093] XType: XTFontStaticRegistry is enabled. 2024-07-30 21:47:14.786 MATLAB[49870:144791093] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:47:14.786 MATLAB[49870:144791093] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 21:47:14.788 MATLAB[49870:144791093] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:47:14.792 MATLAB[49870:144791093] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:47:14.793 MATLAB[49870:144791093] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. Step 2: Anisotropic mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 4207 Step 3: Define loads Step 4: Parameterization Step 5: Solve Esa solver checking model consistency marshalling file EsaWahr.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) starting model processor creating datasets for analysis EsaAnalysis updating elements and materials for control parameters updating elements and materials for uncertainty quantification creating output definitions done with model processor Processing finite element model of analysis EsaAnalysis: toolkits Options set for analysis: EsaAnalysis configuring element and loads Configuring elements... Configuring loads... Configuring materials... Configuring inputs... detecting active vertices resolving node constraints creating nodal degrees of freedom Renumbering degrees of freedom call computational core: computing elastic adjustment toolkits Options set for analysis: EsaAnalysis computing elastic geodetic core write lock file: FemModel initialization elapsed time: 0.122485 Total Core solution elapsed time: 0.56347 Linear solver elapsed time: 0 (0%) Total elapsed time: 0 hrs 0 min 0 sec WARNING! There are options you set that were not used! WARNING! could be spelling mistake, etc! There are 7 unused database options. They are: Option left: name:-ksp_type value: preonly source: code Option left: name:-mat_mumps_icntl_14 value: 120 source: code Option left: name:-mat_mumps_icntl_28 value: 2 source: code Option left: name:-mat_mumps_icntl_29 value: 2 source: code Option left: name:-mat_type value: mpiaij source: code Option left: name:-pc_factor_mat_solver_type value: mumps source: code Option left: name:-pc_type value: lu source: code loading results from cluster Step 6: Plot solutions Step 7: Compare results against Wahr semi-analytic solutions SUCCESS Directory contains functions only; no example to run. Testing example: Greenland < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 6345 2024-07-30 21:47:38.242 MATLAB[51291:144793416] XType: com.apple.fonts is not accessible. 2024-07-30 21:47:38.242 MATLAB[51291:144793416] XType: XTFontStaticRegistry is enabled. 2024-07-30 21:47:38.456 MATLAB[51291:144793416] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:47:38.456 MATLAB[51291:144793416] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 21:47:38.457 MATLAB[51291:144793416] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:47:38.462 MATLAB[51291:144793416] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:47:38.462 MATLAB[51291:144793416] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating surface and bedrock Constructing thickness Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions Set geothermal heat flux Set Pressure Single point constraints Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 59172.79 | 7092.887 52079.9 6.085212e-32 x = 1 | f(x) = 50954.87 | 3600.244 47354.58 0.04587451 ====================== step 2/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 50953.45 | 3598.809 47354.6 0.04587451 x = 1 | f(x) = 44978.74 | 2137.679 42840.82 0.2370654 ====================== step 3/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 44987.02 | 2146.197 42840.58 0.2370654 x = 1 | f(x) = 44425.8 | 2044.873 42380.66 0.2722667 ====================== step 4/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 44432.36 | 2051.851 42380.24 0.2722667 x = 1 | f(x) = 42775.97 | 1747.394 41028.16 0.4148691 ====================== step 5/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 42783.98 | 1756.726 41026.84 0.4148691 x = 1 | f(x) = 41876.1 | 1659.336 40216.23 0.5302616 ====================== step 6/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 41885.98 | 1670.347 40215.1 0.5302616 x = 1 | f(x) = 40869.39 | 1561.173 39307.52 0.6932322 ====================== step 7/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 40870.91 | 1563.273 39306.95 0.6932322 x = 1 | f(x) = 39697.76 | 1338.256 38358.58 0.9236775 ====================== step 8/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39697.43 | 1338.655 38357.85 0.9236775 x = 1 | f(x) = 39040.22 | 1208.675 37830.47 1.071791 ====================== step 9/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39039.49 | 1208.558 37829.86 1.071791 x = 1 | f(x) = 38556.09 | 1126.764 37428.13 1.191478 ====================== step 10/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38552.98 | 1124.507 37427.28 1.191478 x = 1 | f(x) = 38121.56 | 1092.495 37027.74 1.3288 ====================== step 11/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38122.77 | 1094.958 37026.49 1.3288 x = 1 | f(x) = 37729.41 | 1149.628 36578.29 1.493932 ====================== step 12/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37740.46 | 1159.142 36579.82 1.493932 x = 1 | f(x) = 37487.92 | 1087.186 36399.14 1.592633 x = 0.381966 | f(x) = 37611.19 | 1112.303 36497.36 1.529775 x = 0.618034 | f(x) = 37561.1 | 1101.089 36458.46 1.55338 x = 0.763932 | f(x) = 37530.94 | 1093.798 36435.58 1.568476 x = 0.854102 | f(x) = 37512.65 | 1089.499 36421.58 1.577683 x = 0.90983 | f(x) = 37501.45 | 1086.979 36412.88 1.583344 ====================== step 13/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37484.86 | 1084.592 36398.67 1.592633 x = 1 | f(x) = 37022.46 | 1018.285 36002.41 1.768007 ====================== step 14/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37030.9 | 1026.085 36003.05 1.768007 x = 1 | f(x) = 36814.89 | 1058.135 35754.9 1.859438 x = 0.381966 | f(x) = 36898.13 | 989.5907 35906.74 1.799676 x = 0.618034 | f(x) = 36853.98 | 1003.884 35848.28 1.821225 x = 0.763932 | f(x) = 36838.62 | 1025.038 35811.75 1.835325 x = 0.937069 | f(x) = 36824.08 | 1052.478 35769.75 1.852853 x = 0.870937 | f(x) = 36839.21 | 1051.966 35785.4 1.846056 ====================== step 15/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36824.8 | 1068.389 35754.55 1.859438 x = 1 | f(x) = 36559.07 | 954.0377 35603.09 1.936544 x = 0.381966 | f(x) = 36711.5 | 1017.403 35692.21 1.887487 x = 0.618034 | f(x) = 36653.71 | 995.7569 35656.05 1.905392 x = 0.763932 | f(x) = 36614.76 | 978.0481 35634.8 1.916939 x = 0.854102 | f(x) = 36589.85 | 965.9689 35621.95 1.92432 x = 0.90983 | f(x) = 36574.06 | 958.1749 35613.95 1.928974 ====================== step 16/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36552.27 | 948.6767 35601.65 1.936544 x = 1 | f(x) = 36368.74 | 909.4905 35457.24 2.009954 x = 0.381966 | f(x) = 36450.66 | 912.2196 35536.48 1.964688 x = 0.618034 | f(x) = 36415.28 | 905.8741 35507.42 1.981913 x = 0.763932 | f(x) = 36394.68 | 904.2792 35488.41 1.992565 x = 0.854102 | f(x) = 36384.31 | 906.0028 35476.31 1.999281 x = 0.90983 | f(x) = 36379.73 | 908.9319 35468.79 2.003357 ====================== step 17/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36373.34 | 914.7542 35456.58 2.009954 x = 1 | f(x) = 36229.12 | 957.6674 35269.34 2.111313 x = 0.381966 | f(x) = 36289.06 | 905.1848 35381.82 2.046875 x = 0.618034 | f(x) = 36257.86 | 916.5034 35339.28 2.070593 x = 0.763932 | f(x) = 36247.49 | 932.6872 35312.72 2.085785 x = 0.913021 | f(x) = 36239.38 | 951.6387 35285.64 2.101794 x = 0.856074 | f(x) = 36249.62 | 951.977 35295.55 2.095621 ====================== step 18/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36238.23 | 966.1893 35269.93 2.111313 x = 1 | f(x) = 36005.81 | 893.306 35110.31 2.18899 x = 0.381966 | f(x) = 36142.54 | 929.6447 35210.76 2.139784 x = 0.618034 | f(x) = 36093.23 | 916.1558 35174.92 2.158128 x = 0.763932 | f(x) = 36058.58 | 905.5225 35150.89 2.16975 x = 0.854102 | f(x) = 36036.9 | 898.7214 35136 2.177043 x = 0.90983 | f(x) = 36023.73 | 894.6151 35126.93 2.18159 ====================== step 19/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36005.22 | 890.2107 35112.82 2.18899 x = 1 | f(x) = 35868.42 | 869.9581 34996.18 2.287732 x = 0.381966 | f(x) = 35911.39 | 860.1821 35048.98 2.225541 x = 0.618034 | f(x) = 35893.04 | 858.0691 35032.72 2.249067 x = 0.763932 | f(x) = 35881.94 | 859.7353 35019.94 2.263658 x = 0.854102 | f(x) = 35877.04 | 863.763 35011.01 2.272799 x = 0.90983 | f(x) = 35875.47 | 868.0771 35005.11 2.278502 ====================== step 20/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35873.35 | 875.6681 34995.4 2.287732 x = 1 | f(x) = 35723.35 | 910.5513 34810.43 2.374027 x = 0.381966 | f(x) = 35789.66 | 860.5594 34926.79 2.319061 x = 0.618034 | f(x) = 35757.04 | 868.789 34885.91 2.339232 x = 0.763932 | f(x) = 35744.03 | 883.7317 34857.95 2.352231 x = 0.854102 | f(x) = 35739.94 | 897.5494 34840.03 2.360435 x = 0.930997 | f(x) = 35737.52 | 910.28 34824.87 2.367548 ====================== step 21/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35735.84 | 922.2347 34811.23 2.374027 x = 1 | f(x) = 35602.51 | 870.7784 34729.3 2.423398 x = 0.381966 | f(x) = 35668.82 | 880.0971 34786.33 2.391628 x = 0.618034 | f(x) = 35644.9 | 872.7159 34769.79 2.403223 x = 0.763932 | f(x) = 35629.08 | 870.0702 34756.6 2.410606 x = 0.854102 | f(x) = 35618.25 | 868.4465 34747.39 2.415368 x = 0.90983 | f(x) = 35610.89 | 867.4925 34740.98 2.418388 ====================== step 22/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35599.85 | 867.5045 34729.92 2.423398 x = 1 | f(x) = 35435.33 | 841.7746 34591.04 2.515761 x = 0.381966 | f(x) = 35503.09 | 830.83 34669.81 2.457304 x = 0.618034 | f(x) = 35463.09 | 825.8312 34634.77 2.479098 x = 0.763932 | f(x) = 35440.81 | 828.0732 34610.24 2.492898 x = 0.854102 | f(x) = 35432.56 | 834.5397 34595.51 2.501553 x = 0.90983 | f(x) = 35438.35 | 841.9242 34593.91 2.50695 ====================== step 23/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35439.26 | 840.4865 34596.27 2.501553 x = 1 | f(x) = 35377.76 | 827.9225 34547.29 2.55107 x = 0.381966 | f(x) = 35416.76 | 819.8319 34594.41 2.518729 x = 0.618034 | f(x) = 35399.79 | 819.4099 34577.85 2.530419 x = 0.763932 | f(x) = 35393.8 | 822.2267 34569.04 2.538053 x = 0.944314 | f(x) = 35386.99 | 828.3335 34556.1 2.547926 x = 0.875414 | f(x) = 35393.31 | 829.0399 34561.73 2.544098 ====================== step 24/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35389.05 | 833.3284 34553.17 2.55107 x = 1 | f(x) = 35252.08 | 814.3328 34435.1 2.649675 x = 0.381966 | f(x) = 35317.08 | 812.978 34501.52 2.588144 x = 0.618034 | f(x) = 35288.37 | 809.7173 34476.04 2.611631 x = 0.763932 | f(x) = 35271.33 | 809.3561 34459.34 2.626304 x = 0.854102 | f(x) = 35263.63 | 811.1877 34449.81 2.63523 x = 0.90983 | f(x) = 35260.58 | 813.8445 34444.09 2.640724 ====================== step 25/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35256.61 | 818.8748 34435.09 2.649675 x = 1 | f(x) = 35162.53 | 858.2925 34301.5 2.735677 x = 0.381966 | f(x) = 35180.62 | 812.9347 34365.01 2.680865 x = 0.618034 | f(x) = 35153.13 | 821.9692 34328.46 2.701322 x = 0.763932 | f(x) = 35158.4 | 837.0542 34318.64 2.714146 x = 0.645762 | f(x) = 35167.63 | 833.3942 34331.53 2.703728 x = 0.527864 | f(x) = 35170.22 | 824.2449 34343.28 2.693583 ====================== step 26/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35160.91 | 827.0912 34331.12 2.701322 x = 1 | f(x) = 35121.46 | 799.6828 34319.05 2.727671 x = 0.381966 | f(x) = 35148.31 | 811.7233 34333.88 2.710519 x = 0.618034 | f(x) = 35139.87 | 807.589 34329.56 2.716728 x = 0.763932 | f(x) = 35133.07 | 803.7518 34326.59 2.720777 x = 0.854102 | f(x) = 35127.95 | 801.0165 34324.22 2.72336 x = 0.90983 | f(x) = 35124.32 | 799.2103 34322.38 2.724988 ====================== step 27/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35118.96 | 797.3021 34318.93 2.727671 x = 1 | f(x) = 34992.01 | 809.2473 34179.93 2.832755 x = 0.381966 | f(x) = 35054.02 | 790.9423 34260.31 2.76623 x = 0.618034 | f(x) = 35029.17 | 793.4469 34232.94 2.790934 x = 0.763932 | f(x) = 35015.09 | 799.2231 34213.06 2.806639 x = 0.854102 | f(x) = 35009.09 | 806.1058 34200.16 2.816511 x = 0.90983 | f(x) = 35007.38 | 812.5981 34191.96 2.822676 ====================== step 28/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35004.31 | 822.0413 34179.44 2.832755 x = 1 | f(x) = 34934.86 | 806.5672 34125.43 2.869517 x = 0.381966 | f(x) = 34947.16 | 786.779 34157.54 2.846475 x = 0.618034 | f(x) = 34937.13 | 788.8925 34145.38 2.855052 x = 0.763932 | f(x) = 34935.7 | 795.0414 34137.8 2.86046 x = 0.748005 | f(x) = 34937.94 | 796.5456 34138.53 2.859865 x = 0.854102 | f(x) = 34938.57 | 802.5723 34133.13 2.863866 ====================== step 29/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34941.29 | 812.7676 34125.65 2.869517 x = 1 | f(x) = 34824.77 | 779.5759 34042.26 2.935703 x = 0.381966 | f(x) = 34880.02 | 788.1483 34088.98 2.894443 x = 0.618034 | f(x) = 34858.6 | 784.1169 34071.57 2.910025 x = 0.763932 | f(x) = 34843.88 | 780.8713 34060.09 2.919808 x = 0.854102 | f(x) = 34835.32 | 779.3892 34053.01 2.925901 x = 0.90983 | f(x) = 34830.73 | 779.0444 34048.76 2.929628 ====================== step 30/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34824.9 | 779.6846 34042.28 2.935703 x = 1 | f(x) = 34721.73 | 773.822 33944.9 3.012811 x = 0.381966 | f(x) = 34777.77 | 771.9934 34002.82 2.964715 x = 0.618034 | f(x) = 34756.76 | 772.5215 33981.25 2.983084 x = 0.763932 | f(x) = 34743.45 | 772.8092 33967.65 2.994365 x = 0.854102 | f(x) = 34735.33 | 773.2061 33959.12 3.001403 x = 0.90983 | f(x) = 34730.47 | 773.6076 33953.86 3.005764 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.103799 Total Core solution elapsed time: 72.6298 Linear solver elapsed time: 42.4692 (58%) Total elapsed time: 0 hrs 1 min 12 sec loading results from cluster Step 4: Transient run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/100 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.35321e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 41.371 > 1 % Convergence criterion: norm(du)/norm(u) 63.1691 > 10 % Convergence criterion: max(du) 0.000157028 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68995e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 3.67351 > 1 % Convergence criterion: norm(du)/norm(u) 7.15747 < 10 % Convergence criterion: max(du) 8.86618e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57465e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 1.10917 > 1 % Convergence criterion: norm(du)/norm(u) 2.86495 < 10 % Convergence criterion: max(du) 5.14918e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56632e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.445154 < 1 % Convergence criterion: norm(du)/norm(u) 1.23492 < 10 % Convergence criterion: max(du) 2.12087e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 4 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73084e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/100 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.4967e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.39976 < 1 % Convergence criterion: norm(du)/norm(u) 13.1949 > 10 % Convergence criterion: max(du) 3.38382e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.43547e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.111052 < 1 % Convergence criterion: norm(du)/norm(u) 3.36488 < 10 % Convergence criterion: max(du) 9.83478e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75447e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 3/100 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5492e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.271725 < 1 % Convergence criterion: norm(du)/norm(u) 11.1922 > 10 % Convergence criterion: max(du) 3.27298e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68827e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.076041 < 1 % Convergence criterion: norm(du)/norm(u) 3.86714 < 10 % Convergence criterion: max(du) 1.51084e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63022e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 4/100 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53624e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.213592 < 1 % Convergence criterion: norm(du)/norm(u) 12.8782 > 10 % Convergence criterion: max(du) 4.34484e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57948e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0615855 < 1 % Convergence criterion: norm(du)/norm(u) 4.90592 < 10 % Convergence criterion: max(du) 2.25843e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96115e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 5/100 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61796e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.17981 < 1 % Convergence criterion: norm(du)/norm(u) 13.2234 > 10 % Convergence criterion: max(du) 4.70975e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42004e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0519116 < 1 % Convergence criterion: norm(du)/norm(u) 5.45856 < 10 % Convergence criterion: max(du) 2.79461e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01637e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/100 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71241e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.158264 < 1 % Convergence criterion: norm(du)/norm(u) 11.3871 > 10 % Convergence criterion: max(du) 4.73377e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.6047e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0451186 < 1 % Convergence criterion: norm(du)/norm(u) 4.9933 < 10 % Convergence criterion: max(du) 2.80978e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76956e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 7/100 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62739e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.143012 < 1 % Convergence criterion: norm(du)/norm(u) 8.5021 < 10 % Convergence criterion: max(du) 4.06839e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65489e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 8/100 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61133e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.153015 < 1 % Convergence criterion: norm(du)/norm(u) 7.82695 < 10 % Convergence criterion: max(du) 4.16499e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79232e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 9/100 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67285e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.148855 < 1 % Convergence criterion: norm(du)/norm(u) 6.42596 < 10 % Convergence criterion: max(du) 3.71476e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70656e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 10/100 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.4712e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.14179 < 1 % Convergence criterion: norm(du)/norm(u) 5.02037 < 10 % Convergence criterion: max(du) 3.04604e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87946e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/100 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.34992e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.135019 < 1 % Convergence criterion: norm(du)/norm(u) 3.8637 < 10 % Convergence criterion: max(du) 2.37104e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.02238e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 12/100 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.46763e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.129411 < 1 % Convergence criterion: norm(du)/norm(u) 3.00068 < 10 % Convergence criterion: max(du) 1.79943e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67153e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 13/100 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.66677e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.124912 < 1 % Convergence criterion: norm(du)/norm(u) 2.38986 < 10 % Convergence criterion: max(du) 1.36478e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76987e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 14/100 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48017e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.121222 < 1 % Convergence criterion: norm(du)/norm(u) 1.9658 < 10 % Convergence criterion: max(du) 1.05699e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.80775e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 15/100 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55525e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.118073 < 1 % Convergence criterion: norm(du)/norm(u) 1.66967 < 10 % Convergence criterion: max(du) 9.13355e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01437e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/100 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62123e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.115283 < 1 % Convergence criterion: norm(du)/norm(u) 1.457 < 10 % Convergence criterion: max(du) 8.17367e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59905e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 17/100 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51425e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.112745 < 1 % Convergence criterion: norm(du)/norm(u) 1.29694 < 10 % Convergence criterion: max(du) 7.33618e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98679e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 18/100 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49577e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.110392 < 1 % Convergence criterion: norm(du)/norm(u) 1.17077 < 10 % Convergence criterion: max(du) 6.60726e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98144e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 19/100 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.43684e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.108194 < 1 % Convergence criterion: norm(du)/norm(u) 1.06712 < 10 % Convergence criterion: max(du) 5.97275e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 20/100 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.7408e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.106124 < 1 % Convergence criterion: norm(du)/norm(u) 0.979212 < 10 % Convergence criterion: max(du) 5.42071e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85556e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/100 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75364e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.104165 < 1 % Convergence criterion: norm(du)/norm(u) 0.903128 < 10 % Convergence criterion: max(du) 4.94322e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.53554e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 22/100 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.80603e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.102305 < 1 % Convergence criterion: norm(du)/norm(u) 0.83632 < 10 % Convergence criterion: max(du) 4.52667e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.7517e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 23/100 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54097e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.100536 < 1 % Convergence criterion: norm(du)/norm(u) 0.777485 < 10 % Convergence criterion: max(du) 4.16576e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 24/100 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67224e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0988582 < 1 % Convergence criterion: norm(du)/norm(u) 0.725694 < 10 % Convergence criterion: max(du) 3.8535e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01409e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 25/100 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68981e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0972599 < 1 % Convergence criterion: norm(du)/norm(u) 0.680774 < 10 % Convergence criterion: max(du) 3.58314e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.21946e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/100 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51444e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0957355 < 1 % Convergence criterion: norm(du)/norm(u) 0.641499 < 10 % Convergence criterion: max(du) 3.34844e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78816e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 27/100 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72985e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0942812 < 1 % Convergence criterion: norm(du)/norm(u) 0.606834 < 10 % Convergence criterion: max(du) 3.14377e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.89247e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 28/100 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.46119e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0928908 < 1 % Convergence criterion: norm(du)/norm(u) 0.576063 < 10 % Convergence criterion: max(du) 2.96418e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.29297e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 29/100 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48574e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0915596 < 1 % Convergence criterion: norm(du)/norm(u) 0.548621 < 10 % Convergence criterion: max(du) 2.8054e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.60513e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 30/100 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63903e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0902826 < 1 % Convergence criterion: norm(du)/norm(u) 0.523982 < 10 % Convergence criterion: max(du) 2.66382e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72195e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/100 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.77931e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0890553 < 1 % Convergence criterion: norm(du)/norm(u) 0.501671 < 10 % Convergence criterion: max(du) 2.53643e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 32/100 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60988e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0878745 < 1 % Convergence criterion: norm(du)/norm(u) 0.481518 < 10 % Convergence criterion: max(du) 2.42275e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.18685e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 33/100 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57315e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.086737 < 1 % Convergence criterion: norm(du)/norm(u) 0.462906 < 10 % Convergence criterion: max(du) 2.3173e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6803e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 34/100 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.6731e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0856396 < 1 % Convergence criterion: norm(du)/norm(u) 0.445731 < 10 % Convergence criterion: max(du) 2.21987e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94409e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 35/100 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.497e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0845798 < 1 % Convergence criterion: norm(du)/norm(u) 0.429883 < 10 % Convergence criterion: max(du) 2.1297e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86089e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/100 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.47188e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0835546 < 1 % Convergence criterion: norm(du)/norm(u) 0.415204 < 10 % Convergence criterion: max(du) 2.04545e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9039e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 37/100 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41713e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0825623 < 1 % Convergence criterion: norm(du)/norm(u) 0.401602 < 10 % Convergence criterion: max(du) 1.96616e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94496e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 38/100 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.44243e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0816006 < 1 % Convergence criterion: norm(du)/norm(u) 0.38893 < 10 % Convergence criterion: max(du) 1.89116e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91889e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 39/100 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.45587e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0806678 < 1 % Convergence criterion: norm(du)/norm(u) 0.377114 < 10 % Convergence criterion: max(du) 1.81993e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86173e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 40/100 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.70223e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0797625 < 1 % Convergence criterion: norm(du)/norm(u) 0.366039 < 10 % Convergence criterion: max(du) 1.7521e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.28797e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/100 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49693e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0788836 < 1 % Convergence criterion: norm(du)/norm(u) 0.355635 < 10 % Convergence criterion: max(du) 1.68725e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86968e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 42/100 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5884e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0780298 < 1 % Convergence criterion: norm(du)/norm(u) 0.345806 < 10 % Convergence criterion: max(du) 1.62529e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72358e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 43/100 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62933e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0772003 < 1 % Convergence criterion: norm(du)/norm(u) 0.336508 < 10 % Convergence criterion: max(du) 1.56611e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98662e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 44/100 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.40564e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0763939 < 1 % Convergence criterion: norm(du)/norm(u) 0.327688 < 10 % Convergence criterion: max(du) 1.50945e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75023e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 45/100 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55327e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0756099 < 1 % Convergence criterion: norm(du)/norm(u) 0.319299 < 10 % Convergence criterion: max(du) 1.45514e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.64018e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/100 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60315e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0748474 < 1 % Convergence criterion: norm(du)/norm(u) 0.311269 < 10 % Convergence criterion: max(du) 1.40306e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.08434e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 47/100 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.3523e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0741054 < 1 % Convergence criterion: norm(du)/norm(u) 0.30362 < 10 % Convergence criterion: max(du) 1.37128e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.05146e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 48/100 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.58931e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0733832 < 1 % Convergence criterion: norm(du)/norm(u) 0.296271 < 10 % Convergence criterion: max(du) 1.34222e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90273e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 49/100 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60218e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0726804 < 1 % Convergence criterion: norm(du)/norm(u) 0.289265 < 10 % Convergence criterion: max(du) 1.31406e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.10161e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 50/100 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53589e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0719966 < 1 % Convergence criterion: norm(du)/norm(u) 0.282562 < 10 % Convergence criterion: max(du) 1.28675e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98419e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/100 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71751e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0713312 < 1 % Convergence criterion: norm(du)/norm(u) 0.276132 < 10 % Convergence criterion: max(du) 1.26026e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59434e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 52/100 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51876e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.07068 < 1 % Convergence criterion: norm(du)/norm(u) 0.267372 < 10 % Convergence criterion: max(du) 1.21537e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 53/100 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41716e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0700462 < 1 % Convergence criterion: norm(du)/norm(u) 0.258625 < 10 % Convergence criterion: max(du) 1.16725e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.21846e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 54/100 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.50032e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0694297 < 1 % Convergence criterion: norm(du)/norm(u) 0.250199 < 10 % Convergence criterion: max(du) 1.1193e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63943e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 55/100 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55367e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0688301 < 1 % Convergence criterion: norm(du)/norm(u) 0.24214 < 10 % Convergence criterion: max(du) 1.07263e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.14474e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/100 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56291e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0682468 < 1 % Convergence criterion: norm(du)/norm(u) 0.234435 < 10 % Convergence criterion: max(du) 1.02752e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94983e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 57/100 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60696e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0676789 < 1 % Convergence criterion: norm(du)/norm(u) 0.227053 < 10 % Convergence criterion: max(du) 9.84042e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94976e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 58/100 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72249e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0671252 < 1 % Convergence criterion: norm(du)/norm(u) 0.21997 < 10 % Convergence criterion: max(du) 9.42131e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96489e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 59/100 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.59814e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.066585 < 1 % Convergence criterion: norm(du)/norm(u) 0.213146 < 10 % Convergence criterion: max(du) 9.01718e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.15981e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 60/100 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5624e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0660572 < 1 % Convergence criterion: norm(du)/norm(u) 0.206596 < 10 % Convergence criterion: max(du) 8.62727e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61067e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/100 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5908e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0655407 < 1 % Convergence criterion: norm(du)/norm(u) 0.200281 < 10 % Convergence criterion: max(du) 8.25088e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83494e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 62/100 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.38579e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0650343 < 1 % Convergence criterion: norm(du)/norm(u) 0.194187 < 10 % Convergence criterion: max(du) 7.88734e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 63/100 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71573e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0645372 < 1 % Convergence criterion: norm(du)/norm(u) 0.188273 < 10 % Convergence criterion: max(du) 7.53607e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.97108e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 64/100 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5766e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0640486 < 1 % Convergence criterion: norm(du)/norm(u) 0.182631 < 10 % Convergence criterion: max(du) 7.19654e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.27598e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 65/100 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48407e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0635683 < 1 % Convergence criterion: norm(du)/norm(u) 0.177198 < 10 % Convergence criterion: max(du) 6.86825e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6988e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/100 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54879e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0630951 < 1 % Convergence criterion: norm(du)/norm(u) 0.171971 < 10 % Convergence criterion: max(du) 6.55077e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87525e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 67/100 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56091e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0626288 < 1 % Convergence criterion: norm(du)/norm(u) 0.166913 < 10 % Convergence criterion: max(du) 6.24367e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.10981e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 68/100 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55999e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0621694 < 1 % Convergence criterion: norm(du)/norm(u) 0.162057 < 10 % Convergence criterion: max(du) 5.94659e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.99819e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 69/100 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.31457e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.061717 < 1 % Convergence criterion: norm(du)/norm(u) 0.157406 < 10 % Convergence criterion: max(du) 5.65917e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.37217e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 70/100 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53062e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0612712 < 1 % Convergence criterion: norm(du)/norm(u) 0.152932 < 10 % Convergence criterion: max(du) 5.38107e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.8069e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/100 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.52702e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0608321 < 1 % Convergence criterion: norm(du)/norm(u) 0.148617 < 10 % Convergence criterion: max(du) 5.11198e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87958e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 72/100 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57838e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0603996 < 1 % Convergence criterion: norm(du)/norm(u) 0.144487 < 10 % Convergence criterion: max(du) 4.85159e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.08138e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 73/100 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53723e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0599738 < 1 % Convergence criterion: norm(du)/norm(u) 0.140528 < 10 % Convergence criterion: max(du) 4.5996e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.99679e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 74/100 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56918e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0595549 < 1 % Convergence criterion: norm(du)/norm(u) 0.136727 < 10 % Convergence criterion: max(du) 4.38177e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83089e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 75/100 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62138e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0591428 < 1 % Convergence criterion: norm(du)/norm(u) 0.13309 < 10 % Convergence criterion: max(du) 4.18997e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.27122e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/100 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67782e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0587375 < 1 % Convergence criterion: norm(du)/norm(u) 0.129493 < 10 % Convergence criterion: max(du) 4.0049e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73135e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 77/100 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63139e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.058339 < 1 % Convergence criterion: norm(du)/norm(u) 0.126135 < 10 % Convergence criterion: max(du) 3.82626e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04714e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 78/100 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5111e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0579474 < 1 % Convergence criterion: norm(du)/norm(u) 0.12297 < 10 % Convergence criterion: max(du) 3.65374e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87628e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 79/100 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.47892e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0575626 < 1 % Convergence criterion: norm(du)/norm(u) 0.119972 < 10 % Convergence criterion: max(du) 3.48708e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.20672e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 80/100 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5777e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0571843 < 1 % Convergence criterion: norm(du)/norm(u) 0.117108 < 10 % Convergence criterion: max(du) 3.32601e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.60623e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/100 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54065e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0568135 < 1 % Convergence criterion: norm(du)/norm(u) 0.1144 < 10 % Convergence criterion: max(du) 3.17026e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04018e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 82/100 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60821e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0564484 < 1 % Convergence criterion: norm(du)/norm(u) 0.111627 < 10 % Convergence criterion: max(du) 3.01962e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.24554e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 83/100 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62506e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0560901 < 1 % Convergence criterion: norm(du)/norm(u) 0.109128 < 10 % Convergence criterion: max(du) 2.87383e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62807e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 84/100 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.34731e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0557383 < 1 % Convergence criterion: norm(du)/norm(u) 0.106868 < 10 % Convergence criterion: max(du) 2.7327e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77037e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 85/100 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42804e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0553924 < 1 % Convergence criterion: norm(du)/norm(u) 0.104765 < 10 % Convergence criterion: max(du) 2.596e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.12847e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/100 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53197e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0550529 < 1 % Convergence criterion: norm(du)/norm(u) 0.102801 < 10 % Convergence criterion: max(du) 2.46354e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72943e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 87/100 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.74283e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0547192 < 1 % Convergence criterion: norm(du)/norm(u) 0.100568 < 10 % Convergence criterion: max(du) 2.33515e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79451e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 88/100 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42941e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0543918 < 1 % Convergence criterion: norm(du)/norm(u) 0.0987584 < 10 % Convergence criterion: max(du) 2.21062e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88382e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 89/100 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.37479e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0540703 < 1 % Convergence criterion: norm(du)/norm(u) 0.0967644 < 10 % Convergence criterion: max(du) 2.08981e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83114e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 90/100 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60909e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0537547 < 1 % Convergence criterion: norm(du)/norm(u) 0.0952115 < 10 % Convergence criterion: max(du) 1.97255e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6854e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/100 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63958e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0534447 < 1 % Convergence criterion: norm(du)/norm(u) 0.0938128 < 10 % Convergence criterion: max(du) 1.85867e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70173e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 92/100 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41989e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0531379 < 1 % Convergence criterion: norm(du)/norm(u) 0.0925358 < 10 % Convergence criterion: max(du) 1.83323e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88803e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 93/100 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61521e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0528388 < 1 % Convergence criterion: norm(du)/norm(u) 0.0909609 < 10 % Convergence criterion: max(du) 1.907e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04456e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 94/100 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49649e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0525456 < 1 % Convergence criterion: norm(du)/norm(u) 0.0898911 < 10 % Convergence criterion: max(du) 1.97948e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61802e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 95/100 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62959e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0522576 < 1 % Convergence criterion: norm(du)/norm(u) 0.088926 < 10 % Convergence criterion: max(du) 2.05073e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.36673e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/100 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60037e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0519715 < 1 % Convergence criterion: norm(du)/norm(u) 0.0877013 < 10 % Convergence criterion: max(du) 2.12083e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61548e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 97/100 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63244e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0516925 < 1 % Convergence criterion: norm(du)/norm(u) 0.0868634 < 10 % Convergence criterion: max(du) 2.18981e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87914e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 98/100 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5986e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0514187 < 1 % Convergence criterion: norm(du)/norm(u) 0.0861519 < 10 % Convergence criterion: max(du) 2.25772e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.66283e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 99/100 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55374e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0511506 < 1 % Convergence criterion: norm(du)/norm(u) 0.0853259 < 10 % Convergence criterion: max(du) 2.32463e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.26329e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 100/100 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75967e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0508878 < 1 % Convergence criterion: norm(du)/norm(u) 0.0848305 < 10 % Convergence criterion: max(du) 2.39056e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.17501e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.130599 Total Core solution elapsed time: 36.0569 Linear solver elapsed time: 16.2266 (45%) Total elapsed time: 0 hrs 0 min 36 sec loading results from cluster Step 5: Plotting Step 6: Extract Box SMB Step 7: Historical Relaxation run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/1000 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/1000 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 3/1000 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 4/1000 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 5/1000 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/1000 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 7/1000 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 8/1000 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 9/1000 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 10/1000 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/1000 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 12/1000 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 13/1000 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 14/1000 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 15/1000 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/1000 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 17/1000 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 18/1000 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 19/1000 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 20/1000 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/1000 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 22/1000 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 23/1000 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 24/1000 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 25/1000 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/1000 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 27/1000 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 28/1000 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 29/1000 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 30/1000 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/1000 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 32/1000 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 33/1000 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 34/1000 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 35/1000 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/1000 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 37/1000 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 38/1000 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 39/1000 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 40/1000 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/1000 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 42/1000 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 43/1000 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 44/1000 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 45/1000 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/1000 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 47/1000 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 48/1000 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 49/1000 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 50/1000 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/1000 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 52/1000 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 53/1000 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 54/1000 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 55/1000 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/1000 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 57/1000 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 58/1000 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 59/1000 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 60/1000 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/1000 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 62/1000 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 63/1000 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 64/1000 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 65/1000 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/1000 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 67/1000 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 68/1000 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 69/1000 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 70/1000 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/1000 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 72/1000 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 73/1000 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 74/1000 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 75/1000 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/1000 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 77/1000 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 78/1000 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 79/1000 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 80/1000 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/1000 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 82/1000 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 83/1000 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 84/1000 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 85/1000 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/1000 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 87/1000 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 88/1000 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 89/1000 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 90/1000 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/1000 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 92/1000 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 93/1000 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 94/1000 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 95/1000 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/1000 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 97/1000 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 98/1000 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 99/1000 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 100/1000 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 101/1000 time [yr]: 20.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 102/1000 time [yr]: 20.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 103/1000 time [yr]: 20.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 104/1000 time [yr]: 20.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 105/1000 time [yr]: 21.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 106/1000 time [yr]: 21.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 107/1000 time [yr]: 21.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 108/1000 time [yr]: 21.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 109/1000 time [yr]: 21.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 110/1000 time [yr]: 22.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 111/1000 time [yr]: 22.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 112/1000 time [yr]: 22.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 113/1000 time [yr]: 22.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 114/1000 time [yr]: 22.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 115/1000 time [yr]: 23.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 116/1000 time [yr]: 23.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 117/1000 time [yr]: 23.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 118/1000 time [yr]: 23.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 119/1000 time [yr]: 23.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 120/1000 time [yr]: 24.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 121/1000 time [yr]: 24.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 122/1000 time [yr]: 24.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 123/1000 time [yr]: 24.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 124/1000 time [yr]: 24.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 125/1000 time [yr]: 25.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 126/1000 time [yr]: 25.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 127/1000 time [yr]: 25.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 128/1000 time [yr]: 25.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 129/1000 time [yr]: 25.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 130/1000 time [yr]: 26.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 131/1000 time [yr]: 26.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 132/1000 time [yr]: 26.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 133/1000 time [yr]: 26.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 134/1000 time [yr]: 26.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 135/1000 time [yr]: 27.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 136/1000 time [yr]: 27.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 137/1000 time [yr]: 27.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 138/1000 time [yr]: 27.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 139/1000 time [yr]: 27.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 140/1000 time [yr]: 28.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 141/1000 time [yr]: 28.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 142/1000 time [yr]: 28.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 143/1000 time [yr]: 28.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 144/1000 time [yr]: 28.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 145/1000 time [yr]: 29.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 146/1000 time [yr]: 29.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 147/1000 time [yr]: 29.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 148/1000 time [yr]: 29.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 149/1000 time [yr]: 29.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 150/1000 time [yr]: 30.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 151/1000 time [yr]: 30.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 152/1000 time [yr]: 30.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 153/1000 time [yr]: 30.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 154/1000 time [yr]: 30.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 155/1000 time [yr]: 31.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 156/1000 time [yr]: 31.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 157/1000 time [yr]: 31.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 158/1000 time [yr]: 31.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 159/1000 time [yr]: 31.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 160/1000 time [yr]: 32.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 161/1000 time [yr]: 32.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 162/1000 time [yr]: 32.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 163/1000 time [yr]: 32.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 164/1000 time [yr]: 32.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 165/1000 time [yr]: 33.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 166/1000 time [yr]: 33.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 167/1000 time [yr]: 33.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 168/1000 time [yr]: 33.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 169/1000 time [yr]: 33.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 170/1000 time [yr]: 34.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 171/1000 time [yr]: 34.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 172/1000 time [yr]: 34.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 173/1000 time [yr]: 34.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 174/1000 time [yr]: 34.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 175/1000 time [yr]: 35.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 176/1000 time [yr]: 35.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 177/1000 time [yr]: 35.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 178/1000 time [yr]: 35.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 179/1000 time [yr]: 35.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 180/1000 time [yr]: 36.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 181/1000 time [yr]: 36.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 182/1000 time [yr]: 36.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 183/1000 time [yr]: 36.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 184/1000 time [yr]: 36.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 185/1000 time [yr]: 37.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 186/1000 time [yr]: 37.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 187/1000 time [yr]: 37.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 188/1000 time [yr]: 37.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 189/1000 time [yr]: 37.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 190/1000 time [yr]: 38.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 191/1000 time [yr]: 38.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 192/1000 time [yr]: 38.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 193/1000 time [yr]: 38.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 194/1000 time [yr]: 38.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 195/1000 time [yr]: 39.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 196/1000 time [yr]: 39.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 197/1000 time [yr]: 39.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 198/1000 time [yr]: 39.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 199/1000 time [yr]: 39.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 200/1000 time [yr]: 40.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 201/1000 time [yr]: 40.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 202/1000 time [yr]: 40.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 203/1000 time [yr]: 40.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 204/1000 time [yr]: 40.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 205/1000 time [yr]: 41.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 206/1000 time [yr]: 41.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 207/1000 time [yr]: 41.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 208/1000 time [yr]: 41.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 209/1000 time [yr]: 41.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 210/1000 time [yr]: 42.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 211/1000 time [yr]: 42.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 212/1000 time [yr]: 42.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 213/1000 time [yr]: 42.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 214/1000 time [yr]: 42.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 215/1000 time [yr]: 43.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 216/1000 time [yr]: 43.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 217/1000 time [yr]: 43.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 218/1000 time [yr]: 43.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 219/1000 time [yr]: 43.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 220/1000 time [yr]: 44.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 221/1000 time [yr]: 44.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 222/1000 time [yr]: 44.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 223/1000 time [yr]: 44.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 224/1000 time [yr]: 44.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 225/1000 time [yr]: 45.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 226/1000 time [yr]: 45.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 227/1000 time [yr]: 45.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 228/1000 time [yr]: 45.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 229/1000 time [yr]: 45.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 230/1000 time [yr]: 46.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 231/1000 time [yr]: 46.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 232/1000 time [yr]: 46.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 233/1000 time [yr]: 46.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 234/1000 time [yr]: 46.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 235/1000 time [yr]: 47.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 236/1000 time [yr]: 47.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 237/1000 time [yr]: 47.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 238/1000 time [yr]: 47.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 239/1000 time [yr]: 47.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 240/1000 time [yr]: 48.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 241/1000 time [yr]: 48.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 242/1000 time [yr]: 48.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 243/1000 time [yr]: 48.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 244/1000 time [yr]: 48.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 245/1000 time [yr]: 49.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 246/1000 time [yr]: 49.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 247/1000 time [yr]: 49.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 248/1000 time [yr]: 49.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 249/1000 time [yr]: 49.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 250/1000 time [yr]: 50.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 251/1000 time [yr]: 50.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 252/1000 time [yr]: 50.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 253/1000 time [yr]: 50.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 254/1000 time [yr]: 50.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 255/1000 time [yr]: 51.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 256/1000 time [yr]: 51.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 257/1000 time [yr]: 51.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 258/1000 time [yr]: 51.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 259/1000 time [yr]: 51.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 260/1000 time [yr]: 52.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 261/1000 time [yr]: 52.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 262/1000 time [yr]: 52.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 263/1000 time [yr]: 52.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 264/1000 time [yr]: 52.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 265/1000 time [yr]: 53.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 266/1000 time [yr]: 53.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 267/1000 time [yr]: 53.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 268/1000 time [yr]: 53.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 269/1000 time [yr]: 53.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 270/1000 time [yr]: 54.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 271/1000 time [yr]: 54.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 272/1000 time [yr]: 54.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 273/1000 time [yr]: 54.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 274/1000 time [yr]: 54.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 275/1000 time [yr]: 55.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 276/1000 time [yr]: 55.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 277/1000 time [yr]: 55.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 278/1000 time [yr]: 55.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 279/1000 time [yr]: 55.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 280/1000 time [yr]: 56.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 281/1000 time [yr]: 56.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 282/1000 time [yr]: 56.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 283/1000 time [yr]: 56.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 284/1000 time [yr]: 56.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 285/1000 time [yr]: 57.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 286/1000 time [yr]: 57.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 287/1000 time [yr]: 57.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 288/1000 time [yr]: 57.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 289/1000 time [yr]: 57.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 290/1000 time [yr]: 58.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 291/1000 time [yr]: 58.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 292/1000 time [yr]: 58.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 293/1000 time [yr]: 58.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 294/1000 time [yr]: 58.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 295/1000 time [yr]: 59.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 296/1000 time [yr]: 59.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 297/1000 time [yr]: 59.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 298/1000 time [yr]: 59.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 299/1000 time [yr]: 59.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 300/1000 time [yr]: 60.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 301/1000 time [yr]: 60.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 302/1000 time [yr]: 60.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 303/1000 time [yr]: 60.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 304/1000 time [yr]: 60.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 305/1000 time [yr]: 61.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 306/1000 time [yr]: 61.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 307/1000 time [yr]: 61.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 308/1000 time [yr]: 61.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 309/1000 time [yr]: 61.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 310/1000 time [yr]: 62.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 311/1000 time [yr]: 62.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 312/1000 time [yr]: 62.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 313/1000 time [yr]: 62.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 314/1000 time [yr]: 62.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 315/1000 time [yr]: 63.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 316/1000 time [yr]: 63.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 317/1000 time [yr]: 63.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 318/1000 time [yr]: 63.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 319/1000 time [yr]: 63.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 320/1000 time [yr]: 64.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 321/1000 time [yr]: 64.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 322/1000 time [yr]: 64.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 323/1000 time [yr]: 64.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 324/1000 time [yr]: 64.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 325/1000 time [yr]: 65.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 326/1000 time [yr]: 65.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 327/1000 time [yr]: 65.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 328/1000 time [yr]: 65.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 329/1000 time [yr]: 65.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 330/1000 time [yr]: 66.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 331/1000 time [yr]: 66.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 332/1000 time [yr]: 66.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 333/1000 time [yr]: 66.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 334/1000 time [yr]: 66.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 335/1000 time [yr]: 67.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 336/1000 time [yr]: 67.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 337/1000 time [yr]: 67.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 338/1000 time [yr]: 67.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 339/1000 time [yr]: 67.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 340/1000 time [yr]: 68.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 341/1000 time [yr]: 68.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 342/1000 time [yr]: 68.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 343/1000 time [yr]: 68.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 344/1000 time [yr]: 68.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 345/1000 time [yr]: 69.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 346/1000 time [yr]: 69.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 347/1000 time [yr]: 69.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 348/1000 time [yr]: 69.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 349/1000 time [yr]: 69.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 350/1000 time [yr]: 70.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 351/1000 time [yr]: 70.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 352/1000 time [yr]: 70.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 353/1000 time [yr]: 70.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 354/1000 time [yr]: 70.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 355/1000 time [yr]: 71.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 356/1000 time [yr]: 71.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 357/1000 time [yr]: 71.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 358/1000 time [yr]: 71.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 359/1000 time [yr]: 71.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 360/1000 time [yr]: 72.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 361/1000 time [yr]: 72.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 362/1000 time [yr]: 72.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 363/1000 time [yr]: 72.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 364/1000 time [yr]: 72.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 365/1000 time [yr]: 73.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 366/1000 time [yr]: 73.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 367/1000 time [yr]: 73.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 368/1000 time [yr]: 73.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 369/1000 time [yr]: 73.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 370/1000 time [yr]: 74.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 371/1000 time [yr]: 74.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 372/1000 time [yr]: 74.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 373/1000 time [yr]: 74.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 374/1000 time [yr]: 74.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 375/1000 time [yr]: 75.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 376/1000 time [yr]: 75.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 377/1000 time [yr]: 75.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 378/1000 time [yr]: 75.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 379/1000 time [yr]: 75.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 380/1000 time [yr]: 76.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 381/1000 time [yr]: 76.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 382/1000 time [yr]: 76.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 383/1000 time [yr]: 76.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 384/1000 time [yr]: 76.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 385/1000 time [yr]: 77.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 386/1000 time [yr]: 77.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 387/1000 time [yr]: 77.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 388/1000 time [yr]: 77.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 389/1000 time [yr]: 77.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 390/1000 time [yr]: 78.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 391/1000 time [yr]: 78.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 392/1000 time [yr]: 78.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 393/1000 time [yr]: 78.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 394/1000 time [yr]: 78.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 395/1000 time [yr]: 79.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 396/1000 time [yr]: 79.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 397/1000 time [yr]: 79.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 398/1000 time [yr]: 79.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 399/1000 time [yr]: 79.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 400/1000 time [yr]: 80.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 401/1000 time [yr]: 80.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 402/1000 time [yr]: 80.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 403/1000 time [yr]: 80.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 404/1000 time [yr]: 80.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 405/1000 time [yr]: 81.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 406/1000 time [yr]: 81.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 407/1000 time [yr]: 81.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 408/1000 time [yr]: 81.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 409/1000 time [yr]: 81.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 410/1000 time [yr]: 82.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 411/1000 time [yr]: 82.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 412/1000 time [yr]: 82.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 413/1000 time [yr]: 82.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 414/1000 time [yr]: 82.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 415/1000 time [yr]: 83.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 416/1000 time [yr]: 83.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 417/1000 time [yr]: 83.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 418/1000 time [yr]: 83.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 419/1000 time [yr]: 83.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 420/1000 time [yr]: 84.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 421/1000 time [yr]: 84.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 422/1000 time [yr]: 84.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 423/1000 time [yr]: 84.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 424/1000 time [yr]: 84.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 425/1000 time [yr]: 85.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 426/1000 time [yr]: 85.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 427/1000 time [yr]: 85.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 428/1000 time [yr]: 85.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 429/1000 time [yr]: 85.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 430/1000 time [yr]: 86.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 431/1000 time [yr]: 86.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 432/1000 time [yr]: 86.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 433/1000 time [yr]: 86.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 434/1000 time [yr]: 86.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 435/1000 time [yr]: 87.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 436/1000 time [yr]: 87.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 437/1000 time [yr]: 87.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 438/1000 time [yr]: 87.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 439/1000 time [yr]: 87.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 440/1000 time [yr]: 88.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 441/1000 time [yr]: 88.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 442/1000 time [yr]: 88.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 443/1000 time [yr]: 88.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 444/1000 time [yr]: 88.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 445/1000 time [yr]: 89.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 446/1000 time [yr]: 89.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 447/1000 time [yr]: 89.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 448/1000 time [yr]: 89.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 449/1000 time [yr]: 89.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 450/1000 time [yr]: 90.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 451/1000 time [yr]: 90.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 452/1000 time [yr]: 90.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 453/1000 time [yr]: 90.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 454/1000 time [yr]: 90.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 455/1000 time [yr]: 91.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 456/1000 time [yr]: 91.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 457/1000 time [yr]: 91.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 458/1000 time [yr]: 91.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 459/1000 time [yr]: 91.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 460/1000 time [yr]: 92.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 461/1000 time [yr]: 92.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 462/1000 time [yr]: 92.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 463/1000 time [yr]: 92.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 464/1000 time [yr]: 92.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 465/1000 time [yr]: 93.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 466/1000 time [yr]: 93.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 467/1000 time [yr]: 93.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 468/1000 time [yr]: 93.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 469/1000 time [yr]: 93.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 470/1000 time [yr]: 94.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 471/1000 time [yr]: 94.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 472/1000 time [yr]: 94.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 473/1000 time [yr]: 94.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 474/1000 time [yr]: 94.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 475/1000 time [yr]: 95.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 476/1000 time [yr]: 95.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 477/1000 time [yr]: 95.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 478/1000 time [yr]: 95.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 479/1000 time [yr]: 95.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 480/1000 time [yr]: 96.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 481/1000 time [yr]: 96.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 482/1000 time [yr]: 96.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 483/1000 time [yr]: 96.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 484/1000 time [yr]: 96.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 485/1000 time [yr]: 97.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 486/1000 time [yr]: 97.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 487/1000 time [yr]: 97.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 488/1000 time [yr]: 97.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 489/1000 time [yr]: 97.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 490/1000 time [yr]: 98.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 491/1000 time [yr]: 98.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 492/1000 time [yr]: 98.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 493/1000 time [yr]: 98.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 494/1000 time [yr]: 98.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 495/1000 time [yr]: 99.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 496/1000 time [yr]: 99.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 497/1000 time [yr]: 99.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 498/1000 time [yr]: 99.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 499/1000 time [yr]: 99.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 500/1000 time [yr]: 100.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 501/1000 time [yr]: 100.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 502/1000 time [yr]: 100.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 503/1000 time [yr]: 100.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 504/1000 time [yr]: 100.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 505/1000 time [yr]: 101.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 506/1000 time [yr]: 101.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 507/1000 time [yr]: 101.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 508/1000 time [yr]: 101.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 509/1000 time [yr]: 101.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 510/1000 time [yr]: 102.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 511/1000 time [yr]: 102.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 512/1000 time [yr]: 102.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 513/1000 time [yr]: 102.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 514/1000 time [yr]: 102.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 515/1000 time [yr]: 103.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 516/1000 time [yr]: 103.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 517/1000 time [yr]: 103.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 518/1000 time [yr]: 103.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 519/1000 time [yr]: 103.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 520/1000 time [yr]: 104.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 521/1000 time [yr]: 104.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 522/1000 time [yr]: 104.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 523/1000 time [yr]: 104.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 524/1000 time [yr]: 104.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 525/1000 time [yr]: 105.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 526/1000 time [yr]: 105.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 527/1000 time [yr]: 105.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 528/1000 time [yr]: 105.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 529/1000 time [yr]: 105.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 530/1000 time [yr]: 106.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 531/1000 time [yr]: 106.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 532/1000 time [yr]: 106.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 533/1000 time [yr]: 106.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 534/1000 time [yr]: 106.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 535/1000 time [yr]: 107.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 536/1000 time [yr]: 107.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 537/1000 time [yr]: 107.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 538/1000 time [yr]: 107.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 539/1000 time [yr]: 107.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 540/1000 time [yr]: 108.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 541/1000 time [yr]: 108.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 542/1000 time [yr]: 108.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 543/1000 time [yr]: 108.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 544/1000 time [yr]: 108.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 545/1000 time [yr]: 109.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 546/1000 time [yr]: 109.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 547/1000 time [yr]: 109.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 548/1000 time [yr]: 109.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 549/1000 time [yr]: 109.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 550/1000 time [yr]: 110.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 551/1000 time [yr]: 110.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 552/1000 time [yr]: 110.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 553/1000 time [yr]: 110.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 554/1000 time [yr]: 110.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 555/1000 time [yr]: 111.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 556/1000 time [yr]: 111.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 557/1000 time [yr]: 111.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 558/1000 time [yr]: 111.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 559/1000 time [yr]: 111.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 560/1000 time [yr]: 112.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 561/1000 time [yr]: 112.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 562/1000 time [yr]: 112.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 563/1000 time [yr]: 112.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 564/1000 time [yr]: 112.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 565/1000 time [yr]: 113.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 566/1000 time [yr]: 113.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 567/1000 time [yr]: 113.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 568/1000 time [yr]: 113.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 569/1000 time [yr]: 113.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 570/1000 time [yr]: 114.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 571/1000 time [yr]: 114.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 572/1000 time [yr]: 114.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 573/1000 time [yr]: 114.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 574/1000 time [yr]: 114.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 575/1000 time [yr]: 115.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 576/1000 time [yr]: 115.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 577/1000 time [yr]: 115.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 578/1000 time [yr]: 115.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 579/1000 time [yr]: 115.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 580/1000 time [yr]: 116.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 581/1000 time [yr]: 116.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 582/1000 time [yr]: 116.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 583/1000 time [yr]: 116.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 584/1000 time [yr]: 116.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 585/1000 time [yr]: 117.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 586/1000 time [yr]: 117.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 587/1000 time [yr]: 117.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 588/1000 time [yr]: 117.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 589/1000 time [yr]: 117.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 590/1000 time [yr]: 118.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 591/1000 time [yr]: 118.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 592/1000 time [yr]: 118.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 593/1000 time [yr]: 118.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 594/1000 time [yr]: 118.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 595/1000 time [yr]: 119.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 596/1000 time [yr]: 119.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 597/1000 time [yr]: 119.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 598/1000 time [yr]: 119.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 599/1000 time [yr]: 119.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 600/1000 time [yr]: 120.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 601/1000 time [yr]: 120.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 602/1000 time [yr]: 120.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 603/1000 time [yr]: 120.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 604/1000 time [yr]: 120.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 605/1000 time [yr]: 121.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 606/1000 time [yr]: 121.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 607/1000 time [yr]: 121.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 608/1000 time [yr]: 121.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 609/1000 time [yr]: 121.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 610/1000 time [yr]: 122.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 611/1000 time [yr]: 122.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 612/1000 time [yr]: 122.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 613/1000 time [yr]: 122.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 614/1000 time [yr]: 122.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 615/1000 time [yr]: 123.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 616/1000 time [yr]: 123.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 617/1000 time [yr]: 123.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 618/1000 time [yr]: 123.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 619/1000 time [yr]: 123.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 620/1000 time [yr]: 124.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 621/1000 time [yr]: 124.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 622/1000 time [yr]: 124.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 623/1000 time [yr]: 124.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 624/1000 time [yr]: 124.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 625/1000 time [yr]: 125.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 626/1000 time [yr]: 125.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 627/1000 time [yr]: 125.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 628/1000 time [yr]: 125.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 629/1000 time [yr]: 125.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 630/1000 time [yr]: 126.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 631/1000 time [yr]: 126.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 632/1000 time [yr]: 126.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 633/1000 time [yr]: 126.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 634/1000 time [yr]: 126.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 635/1000 time [yr]: 127.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 636/1000 time [yr]: 127.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 637/1000 time [yr]: 127.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 638/1000 time [yr]: 127.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 639/1000 time [yr]: 127.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 640/1000 time [yr]: 128.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 641/1000 time [yr]: 128.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 642/1000 time [yr]: 128.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 643/1000 time [yr]: 128.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 644/1000 time [yr]: 128.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 645/1000 time [yr]: 129.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 646/1000 time [yr]: 129.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 647/1000 time [yr]: 129.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 648/1000 time [yr]: 129.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 649/1000 time [yr]: 129.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 650/1000 time [yr]: 130.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 651/1000 time [yr]: 130.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 652/1000 time [yr]: 130.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 653/1000 time [yr]: 130.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 654/1000 time [yr]: 130.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 655/1000 time [yr]: 131.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 656/1000 time [yr]: 131.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 657/1000 time [yr]: 131.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 658/1000 time [yr]: 131.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 659/1000 time [yr]: 131.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 660/1000 time [yr]: 132.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 661/1000 time [yr]: 132.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 662/1000 time [yr]: 132.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 663/1000 time [yr]: 132.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 664/1000 time [yr]: 132.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 665/1000 time [yr]: 133.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 666/1000 time [yr]: 133.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 667/1000 time [yr]: 133.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 668/1000 time [yr]: 133.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 669/1000 time [yr]: 133.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 670/1000 time [yr]: 134.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 671/1000 time [yr]: 134.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 672/1000 time [yr]: 134.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 673/1000 time [yr]: 134.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 674/1000 time [yr]: 134.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 675/1000 time [yr]: 135.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 676/1000 time [yr]: 135.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 677/1000 time [yr]: 135.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 678/1000 time [yr]: 135.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 679/1000 time [yr]: 135.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 680/1000 time [yr]: 136.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 681/1000 time [yr]: 136.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 682/1000 time [yr]: 136.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 683/1000 time [yr]: 136.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 684/1000 time [yr]: 136.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 685/1000 time [yr]: 137.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 686/1000 time [yr]: 137.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 687/1000 time [yr]: 137.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 688/1000 time [yr]: 137.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 689/1000 time [yr]: 137.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 690/1000 time [yr]: 138.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 691/1000 time [yr]: 138.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 692/1000 time [yr]: 138.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 693/1000 time [yr]: 138.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 694/1000 time [yr]: 138.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 695/1000 time [yr]: 139.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 696/1000 time [yr]: 139.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 697/1000 time [yr]: 139.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 698/1000 time [yr]: 139.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 699/1000 time [yr]: 139.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 700/1000 time [yr]: 140.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 701/1000 time [yr]: 140.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 702/1000 time [yr]: 140.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 703/1000 time [yr]: 140.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 704/1000 time [yr]: 140.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 705/1000 time [yr]: 141.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 706/1000 time [yr]: 141.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 707/1000 time [yr]: 141.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 708/1000 time [yr]: 141.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 709/1000 time [yr]: 141.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 710/1000 time [yr]: 142.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 711/1000 time [yr]: 142.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 712/1000 time [yr]: 142.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 713/1000 time [yr]: 142.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 714/1000 time [yr]: 142.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 715/1000 time [yr]: 143.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 716/1000 time [yr]: 143.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 717/1000 time [yr]: 143.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 718/1000 time [yr]: 143.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 719/1000 time [yr]: 143.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 720/1000 time [yr]: 144.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 721/1000 time [yr]: 144.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 722/1000 time [yr]: 144.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 723/1000 time [yr]: 144.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 724/1000 time [yr]: 144.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 725/1000 time [yr]: 145.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 726/1000 time [yr]: 145.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 727/1000 time [yr]: 145.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 728/1000 time [yr]: 145.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 729/1000 time [yr]: 145.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 730/1000 time [yr]: 146.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 731/1000 time [yr]: 146.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 732/1000 time [yr]: 146.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 733/1000 time [yr]: 146.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 734/1000 time [yr]: 146.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 735/1000 time [yr]: 147.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 736/1000 time [yr]: 147.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 737/1000 time [yr]: 147.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 738/1000 time [yr]: 147.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 739/1000 time [yr]: 147.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 740/1000 time [yr]: 148.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 741/1000 time [yr]: 148.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 742/1000 time [yr]: 148.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 743/1000 time [yr]: 148.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 744/1000 time [yr]: 148.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 745/1000 time [yr]: 149.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 746/1000 time [yr]: 149.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 747/1000 time [yr]: 149.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 748/1000 time [yr]: 149.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 749/1000 time [yr]: 149.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 750/1000 time [yr]: 150.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 751/1000 time [yr]: 150.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 752/1000 time [yr]: 150.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 753/1000 time [yr]: 150.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 754/1000 time [yr]: 150.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 755/1000 time [yr]: 151.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 756/1000 time [yr]: 151.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 757/1000 time [yr]: 151.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 758/1000 time [yr]: 151.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 759/1000 time [yr]: 151.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 760/1000 time [yr]: 152.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 761/1000 time [yr]: 152.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 762/1000 time [yr]: 152.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 763/1000 time [yr]: 152.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 764/1000 time [yr]: 152.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 765/1000 time [yr]: 153.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 766/1000 time [yr]: 153.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 767/1000 time [yr]: 153.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 768/1000 time [yr]: 153.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 769/1000 time [yr]: 153.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 770/1000 time [yr]: 154.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 771/1000 time [yr]: 154.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 772/1000 time [yr]: 154.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 773/1000 time [yr]: 154.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 774/1000 time [yr]: 154.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 775/1000 time [yr]: 155.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 776/1000 time [yr]: 155.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 777/1000 time [yr]: 155.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 778/1000 time [yr]: 155.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 779/1000 time [yr]: 155.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 780/1000 time [yr]: 156.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 781/1000 time [yr]: 156.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 782/1000 time [yr]: 156.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 783/1000 time [yr]: 156.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 784/1000 time [yr]: 156.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 785/1000 time [yr]: 157.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 786/1000 time [yr]: 157.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 787/1000 time [yr]: 157.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 788/1000 time [yr]: 157.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 789/1000 time [yr]: 157.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 790/1000 time [yr]: 158.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 791/1000 time [yr]: 158.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 792/1000 time [yr]: 158.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 793/1000 time [yr]: 158.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 794/1000 time [yr]: 158.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 795/1000 time [yr]: 159.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 796/1000 time [yr]: 159.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 797/1000 time [yr]: 159.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 798/1000 time [yr]: 159.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 799/1000 time [yr]: 159.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 800/1000 time [yr]: 160.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 801/1000 time [yr]: 160.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 802/1000 time [yr]: 160.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 803/1000 time [yr]: 160.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 804/1000 time [yr]: 160.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 805/1000 time [yr]: 161.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 806/1000 time [yr]: 161.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 807/1000 time [yr]: 161.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 808/1000 time [yr]: 161.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 809/1000 time [yr]: 161.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 810/1000 time [yr]: 162.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 811/1000 time [yr]: 162.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 812/1000 time [yr]: 162.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 813/1000 time [yr]: 162.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 814/1000 time [yr]: 162.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 815/1000 time [yr]: 163.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 816/1000 time [yr]: 163.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 817/1000 time [yr]: 163.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 818/1000 time [yr]: 163.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 819/1000 time [yr]: 163.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 820/1000 time [yr]: 164.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 821/1000 time [yr]: 164.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 822/1000 time [yr]: 164.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 823/1000 time [yr]: 164.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 824/1000 time [yr]: 164.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 825/1000 time [yr]: 165.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 826/1000 time [yr]: 165.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 827/1000 time [yr]: 165.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 828/1000 time [yr]: 165.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 829/1000 time [yr]: 165.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 830/1000 time [yr]: 166.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 831/1000 time [yr]: 166.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 832/1000 time [yr]: 166.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 833/1000 time [yr]: 166.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 834/1000 time [yr]: 166.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 835/1000 time [yr]: 167.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 836/1000 time [yr]: 167.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 837/1000 time [yr]: 167.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 838/1000 time [yr]: 167.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 839/1000 time [yr]: 167.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 840/1000 time [yr]: 168.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 841/1000 time [yr]: 168.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 842/1000 time [yr]: 168.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 843/1000 time [yr]: 168.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 844/1000 time [yr]: 168.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 845/1000 time [yr]: 169.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 846/1000 time [yr]: 169.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 847/1000 time [yr]: 169.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 848/1000 time [yr]: 169.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 849/1000 time [yr]: 169.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 850/1000 time [yr]: 170.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 851/1000 time [yr]: 170.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 852/1000 time [yr]: 170.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 853/1000 time [yr]: 170.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 854/1000 time [yr]: 170.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 855/1000 time [yr]: 171.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 856/1000 time [yr]: 171.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 857/1000 time [yr]: 171.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 858/1000 time [yr]: 171.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 859/1000 time [yr]: 171.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 860/1000 time [yr]: 172.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 861/1000 time [yr]: 172.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 862/1000 time [yr]: 172.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 863/1000 time [yr]: 172.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 864/1000 time [yr]: 172.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 865/1000 time [yr]: 173.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 866/1000 time [yr]: 173.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 867/1000 time [yr]: 173.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 868/1000 time [yr]: 173.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 869/1000 time [yr]: 173.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 870/1000 time [yr]: 174.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 871/1000 time [yr]: 174.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 872/1000 time [yr]: 174.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 873/1000 time [yr]: 174.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 874/1000 time [yr]: 174.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 875/1000 time [yr]: 175.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 876/1000 time [yr]: 175.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 877/1000 time [yr]: 175.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 878/1000 time [yr]: 175.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 879/1000 time [yr]: 175.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 880/1000 time [yr]: 176.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 881/1000 time [yr]: 176.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 882/1000 time [yr]: 176.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 883/1000 time [yr]: 176.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 884/1000 time [yr]: 176.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 885/1000 time [yr]: 177.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 886/1000 time [yr]: 177.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 887/1000 time [yr]: 177.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 888/1000 time [yr]: 177.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 889/1000 time [yr]: 177.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 890/1000 time [yr]: 178.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 891/1000 time [yr]: 178.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 892/1000 time [yr]: 178.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 893/1000 time [yr]: 178.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 894/1000 time [yr]: 178.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 895/1000 time [yr]: 179.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 896/1000 time [yr]: 179.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 897/1000 time [yr]: 179.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 898/1000 time [yr]: 179.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 899/1000 time [yr]: 179.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 900/1000 time [yr]: 180.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 901/1000 time [yr]: 180.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 902/1000 time [yr]: 180.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 903/1000 time [yr]: 180.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 904/1000 time [yr]: 180.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 905/1000 time [yr]: 181.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 906/1000 time [yr]: 181.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 907/1000 time [yr]: 181.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 908/1000 time [yr]: 181.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 909/1000 time [yr]: 181.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 910/1000 time [yr]: 182.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 911/1000 time [yr]: 182.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 912/1000 time [yr]: 182.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 913/1000 time [yr]: 182.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 914/1000 time [yr]: 182.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 915/1000 time [yr]: 183.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 916/1000 time [yr]: 183.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 917/1000 time [yr]: 183.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 918/1000 time [yr]: 183.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 919/1000 time [yr]: 183.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 920/1000 time [yr]: 184.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 921/1000 time [yr]: 184.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 922/1000 time [yr]: 184.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 923/1000 time [yr]: 184.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 924/1000 time [yr]: 184.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 925/1000 time [yr]: 185.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 926/1000 time [yr]: 185.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 927/1000 time [yr]: 185.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 928/1000 time [yr]: 185.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 929/1000 time [yr]: 185.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 930/1000 time [yr]: 186.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 931/1000 time [yr]: 186.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 932/1000 time [yr]: 186.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 933/1000 time [yr]: 186.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 934/1000 time [yr]: 186.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 935/1000 time [yr]: 187.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 936/1000 time [yr]: 187.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 937/1000 time [yr]: 187.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 938/1000 time [yr]: 187.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 939/1000 time [yr]: 187.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 940/1000 time [yr]: 188.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 941/1000 time [yr]: 188.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 942/1000 time [yr]: 188.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 943/1000 time [yr]: 188.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 944/1000 time [yr]: 188.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 945/1000 time [yr]: 189.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 946/1000 time [yr]: 189.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 947/1000 time [yr]: 189.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 948/1000 time [yr]: 189.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 949/1000 time [yr]: 189.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 950/1000 time [yr]: 190.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 951/1000 time [yr]: 190.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 952/1000 time [yr]: 190.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 953/1000 time [yr]: 190.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 954/1000 time [yr]: 190.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 955/1000 time [yr]: 191.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 956/1000 time [yr]: 191.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 957/1000 time [yr]: 191.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 958/1000 time [yr]: 191.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 959/1000 time [yr]: 191.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 960/1000 time [yr]: 192.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 961/1000 time [yr]: 192.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 962/1000 time [yr]: 192.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 963/1000 time [yr]: 192.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 964/1000 time [yr]: 192.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 965/1000 time [yr]: 193.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 966/1000 time [yr]: 193.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 967/1000 time [yr]: 193.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 968/1000 time [yr]: 193.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 969/1000 time [yr]: 193.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 970/1000 time [yr]: 194.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 971/1000 time [yr]: 194.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 972/1000 time [yr]: 194.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 973/1000 time [yr]: 194.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 974/1000 time [yr]: 194.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 975/1000 time [yr]: 195.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 976/1000 time [yr]: 195.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 977/1000 time [yr]: 195.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 978/1000 time [yr]: 195.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 979/1000 time [yr]: 195.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 980/1000 time [yr]: 196.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 981/1000 time [yr]: 196.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 982/1000 time [yr]: 196.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 983/1000 time [yr]: 196.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 984/1000 time [yr]: 196.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 985/1000 time [yr]: 197.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 986/1000 time [yr]: 197.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 987/1000 time [yr]: 197.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 988/1000 time [yr]: 197.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 989/1000 time [yr]: 197.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 990/1000 time [yr]: 198.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 991/1000 time [yr]: 198.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 992/1000 time [yr]: 198.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 993/1000 time [yr]: 198.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 994/1000 time [yr]: 198.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 995/1000 time [yr]: 199.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 996/1000 time [yr]: 199.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 997/1000 time [yr]: 199.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 998/1000 time [yr]: 199.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 999/1000 time [yr]: 199.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 1000/1000 time [yr]: 200.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 200 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 200 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.134075 Total Core solution elapsed time: 483.657 Linear solver elapsed time: 292.438 (60%) Total elapsed time: 0 hrs 8 min 3 sec loading results from cluster SUCCESS Testing example: ISMIP < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded 2024-07-30 21:59:26.662 MATLAB[86102:144866876] XType: com.apple.fonts is not accessible. 2024-07-30 21:59:26.662 MATLAB[86102:144866876] XType: XTFontStaticRegistry is enabled. 2024-07-30 21:59:26.963 MATLAB[86102:144866876] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:59:26.963 MATLAB[86102:144866876] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 21:59:26.966 MATLAB[86102:144866876] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:59:26.972 MATLAB[86102:144866876] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 21:59:26.972 MATLAB[86102:144866876] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. Constructing Geometry Defining friction parameters Construct ice rheological properties Set boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no dsl.global_average_thermosteric_sea_level specified: transient values set to zero no dsl.sea_surface_height_above_geoid specified: transient values set to zero no dsl.sea_water_pressure_at_sea_floor specified: transient values set to zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: solver residue: norm(KU-F)/norm(F)=1.22004e-11 mechanical equilibrium convergence criterion 100 > 0.01 % Convergence criterion: norm(du)/norm(u) 2.93163e+11 > 1 % Convergence criterion: max(du) 1.71957e-06 > 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=4.4539e-11 mechanical equilibrium convergence criterion 76.8235 > 0.01 % Convergence criterion: norm(du)/norm(u) 15.6455 > 1 % Convergence criterion: max(du) 4.09332e-07 > 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=9.17309e-11 mechanical equilibrium convergence criterion 38.5767 > 0.01 % Convergence criterion: norm(du)/norm(u) 11.2403 > 1 % Convergence criterion: max(du) 3.00053e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=1.6999e-10 mechanical equilibrium convergence criterion 24.567 > 0.01 % Convergence criterion: norm(du)/norm(u) 7.81407 > 1 % Convergence criterion: max(du) 2.08151e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.05812e-10 mechanical equilibrium convergence criterion 15.9808 > 0.01 % Convergence criterion: norm(du)/norm(u) 5.30991 > 1 % Convergence criterion: max(du) 1.43808e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.17583e-10 mechanical equilibrium convergence criterion 10.0203 > 0.01 % Convergence criterion: norm(du)/norm(u) 3.55838 > 1 % Convergence criterion: max(du) 9.77761e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.36108e-10 mechanical equilibrium convergence criterion 6.28176 > 0.01 % Convergence criterion: norm(du)/norm(u) 2.36978 > 1 % Convergence criterion: max(du) 6.58033e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.59941e-10 mechanical equilibrium convergence criterion 3.98732 > 0.01 % Convergence criterion: norm(du)/norm(u) 1.57429 > 1 % Convergence criterion: max(du) 4.42306e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.56425e-10 mechanical equilibrium convergence criterion 2.56479 > 0.01 % Convergence criterion: norm(du)/norm(u) 1.04497 > 1 % Convergence criterion: max(du) 2.95422e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.80652e-10 mechanical equilibrium convergence criterion 1.6672 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.693537 < 1 % Convergence criterion: max(du) 1.96268e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.5014e-10 mechanical equilibrium convergence criterion 1.09168 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.460377 < 1 % Convergence criterion: max(du) 1.29995e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.66211e-10 mechanical equilibrium convergence criterion 0.718201 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.305689 < 1 % Convergence criterion: max(du) 8.5961e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.55557e-10 mechanical equilibrium convergence criterion 0.473849 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.20304 < 1 % Convergence criterion: max(du) 5.68039e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.69322e-10 mechanical equilibrium convergence criterion 0.31315 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.1349 < 1 % Convergence criterion: max(du) 3.7532e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.96463e-10 mechanical equilibrium convergence criterion 0.207134 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0896529 < 1 % Convergence criterion: max(du) 2.48041e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.5647e-10 mechanical equilibrium convergence criterion 0.137068 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0595968 < 1 % Convergence criterion: max(du) 1.63991e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.79408e-10 mechanical equilibrium convergence criterion 0.090717 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0396256 < 1 % Convergence criterion: max(du) 1.08476e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.64029e-10 mechanical equilibrium convergence criterion 0.0600398 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0263519 < 1 % Convergence criterion: max(du) 7.17916e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.74566e-10 mechanical equilibrium convergence criterion 0.0397332 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0175275 < 1 % Convergence criterion: max(du) 4.75381e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.79327e-10 mechanical equilibrium convergence criterion 0.0262916 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0116599 < 1 % Convergence criterion: max(du) 3.14939e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.35241e-10 mechanical equilibrium convergence criterion 0.0173951 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.00775754 < 1 % Convergence criterion: max(du) 2.08743e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.50621e-10 mechanical equilibrium convergence criterion 0.0115076 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.00516182 < 1 % Convergence criterion: max(du) 1.38415e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.65759e-10 mechanical equilibrium convergence criterion 0.00761203 < 0.01 % Convergence criterion: norm(du)/norm(u) 0.003435 < 1 % Convergence criterion: max(du) 9.18157e-11 < 3.17098e-07 number of unstable constraints: 0 total number of iterations: 23 solver residue: norm(KU-F)/norm(F)=1.26315e-14 write lock file: FemModel initialization elapsed time: 0.117266 Total Core solution elapsed time: 9.16884 Linear solver elapsed time: 4.73532 (52%) Total elapsed time: 0 hrs 0 min 9 sec SUCCESS Testing example: IceBridge < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 8288 Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating surface and bedrock Constructing thickness reading IceBridge Jakobshavn bedrock Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions Set geothermal heat flux Set Pressure Single point constraints Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 27065.6 | 5900.203 21165.4 7.69751e-32 x = 1 | f(x) = 17034.49 | 3078.516 13955.94 0.03857034 ====================== step 2/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 17032.65 | 3077.388 13955.23 0.03857034 x = 1 | f(x) = 11029.03 | 1769.281 9259.544 0.2059931 ====================== step 3/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 11026.43 | 1766.95 9259.277 0.2059931 x = 1 | f(x) = 9081.232 | 1408.483 7672.37 0.3791164 ====================== step 4/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 9086.581 | 1415.848 7670.353 0.3791164 x = 1 | f(x) = 8715.311 | 1336.523 7378.36 0.4275718 ====================== step 5/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 8715.226 | 1336.434 7378.364 0.4275718 x = 1 | f(x) = 8573.931 | 1291.502 7281.982 0.4465695 ====================== step 6/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 8572.735 | 1290.437 7281.852 0.4465695 x = 1 | f(x) = 7716.488 | 1183.03 6532.81 0.6481422 ====================== step 7/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7756.682 | 1223.917 6532.117 0.6481422 x = 1 | f(x) = 7489.554 | 1056.254 6432.615 0.6851672 ====================== step 8/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7491.419 | 1058.204 6432.529 0.6851672 x = 1 | f(x) = 6994.312 | 1036.461 5956.977 0.8747352 ====================== step 9/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7025.843 | 1068.729 5956.24 0.8747352 x = 1 | f(x) = 6861.466 | 960.691 5899.871 0.9040446 ====================== step 10/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6862.929 | 962.2429 5899.782 0.9040446 x = 1 | f(x) = 6488.92 | 900.8583 5586.998 1.063107 ====================== step 11/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6502 | 914.4696 5586.468 1.063107 x = 1 | f(x) = 6390.493 | 908.1139 5481.242 1.13734 ====================== step 12/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6392.904 | 910.7105 5481.056 1.13734 x = 1 | f(x) = 6076.699 | 813.1729 5262.244 1.282287 ====================== step 13/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6083.601 | 820.3323 5261.986 1.282287 x = 1 | f(x) = 5998.763 | 842.841 5154.538 1.384334 ====================== step 14/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6000.41 | 844.7097 5154.316 1.384334 x = 1 | f(x) = 5805.949 | 792.0692 5012.378 1.501603 ====================== step 15/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5810.177 | 796.6477 5012.027 1.501603 x = 1 | f(x) = 5733.63 | 792.0338 4940.02 1.576293 ====================== step 16/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5735.879 | 794.3976 4939.905 1.576293 x = 1 | f(x) = 5594.183 | 780.2389 4812.231 1.713061 ====================== step 17/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5613.852 | 800.1366 4812.002 1.713061 x = 1 | f(x) = 5525.625 | 724.8518 4799.047 1.726943 ====================== step 18/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5526.085 | 725.3567 4799.001 1.726943 x = 1 | f(x) = 5472.257 | 757.6889 4712.724 1.844519 x = 0.381966 | f(x) = 5470.056 | 706.7403 4761.544 1.771066 ====================== step 19/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5470.153 | 705.5893 4762.792 1.771066 x = 1 | f(x) = 5348.065 | 689.2742 4656.866 1.924838 ====================== step 20/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5349.063 | 690.5543 4656.583 1.924838 x = 1 | f(x) = 5323.264 | 725.9752 4595.258 2.031613 x = 0.381966 | f(x) = 5318.111 | 685.6298 4630.518 1.963546 x = 0.618034 | f(x) = 5308.632 | 689.069 4617.574 1.988759 x = 0.763932 | f(x) = 5310.748 | 699.9833 4608.76 2.004853 x = 0.640305 | f(x) = 5312.108 | 694.3663 4615.751 1.991192 x = 0.527864 | f(x) = 5311.407 | 686.9596 4622.469 1.979004 ====================== step 21/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5309.026 | 689.6317 4617.406 1.988759 x = 1 | f(x) = 5275.422 | 699.2334 4574.118 2.070806 x = 0.381966 | f(x) = 5274.799 | 674.2207 4598.559 2.018629 x = 0.618034 | f(x) = 5270.697 | 679.0485 4589.61 2.03799 x = 0.763932 | f(x) = 5271.927 | 686.2973 4583.58 2.050284 x = 0.628574 | f(x) = 5272.884 | 682.0866 4588.758 2.038868 x = 0.527864 | f(x) = 5273.653 | 678.6367 4592.985 2.030532 ====================== step 22/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5272.459 | 680.9517 4589.47 2.03799 x = 1 | f(x) = 5241.616 | 666.7242 4572.824 2.067936 x = 0.381966 | f(x) = 5258.164 | 673.5841 4582.53 2.049306 x = 0.618034 | f(x) = 5251.629 | 670.7857 4578.787 2.056385 x = 0.763932 | f(x) = 5247.083 | 668.7172 4576.305 2.060781 x = 0.854102 | f(x) = 5244.291 | 667.4734 4574.754 2.063509 x = 0.90983 | f(x) = 5242.609 | 666.7515 4573.793 2.0652 ====================== step 23/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5240.169 | 665.809 4572.292 2.067936 x = 1 | f(x) = 5220.71 | 661.7395 4556.873 2.097223 x = 0.381966 | f(x) = 5231.626 | 663.6697 4565.877 2.079048 x = 0.618034 | f(x) = 5227.433 | 662.8709 4562.476 2.085961 x = 0.763932 | f(x) = 5224.646 | 662.4136 4560.142 2.090252 x = 0.854102 | f(x) = 5222.961 | 662.1916 4558.677 2.092911 x = 0.90983 | f(x) = 5221.949 | 662.0857 4557.769 2.094556 ====================== step 24/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5220.387 | 661.933 4556.356 2.097223 x = 1 | f(x) = 5202.337 | 659.3586 4540.852 2.126991 x = 0.381966 | f(x) = 5212.61 | 660.6193 4549.883 2.108547 x = 0.618034 | f(x) = 5208.714 | 660.1207 4546.477 2.115567 x = 0.763932 | f(x) = 5205.972 | 659.7097 4544.143 2.119922 x = 0.854102 | f(x) = 5204.236 | 659.4346 4542.679 2.122618 x = 0.90983 | f(x) = 5203.155 | 659.2591 4541.772 2.124287 ====================== step 25/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5201.5 | 659.0157 4540.357 2.126991 x = 1 | f(x) = 5183.849 | 656.5169 4525.176 2.156824 x = 0.381966 | f(x) = 5193.993 | 657.867 4533.987 2.138348 x = 0.618034 | f(x) = 5190.14 | 657.3415 4530.653 2.145382 x = 0.763932 | f(x) = 5187.486 | 656.9568 4528.38 2.149744 x = 0.854102 | f(x) = 5185.818 | 656.7082 4526.957 2.152446 x = 0.90983 | f(x) = 5184.782 | 656.5514 4526.076 2.154118 ====================== step 26/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5183.181 | 656.3184 4524.706 2.156824 x = 1 | f(x) = 5166.265 | 653.8609 4510.217 2.186693 x = 0.381966 | f(x) = 5176.005 | 655.1622 4518.675 2.168182 x = 0.618034 | f(x) = 5172.318 | 654.6566 4515.486 2.175229 x = 0.763932 | f(x) = 5169.752 | 654.2676 4513.305 2.179599 x = 0.854102 | f(x) = 5168.13 | 654.0103 4511.938 2.182305 x = 0.90983 | f(x) = 5167.121 | 653.846 4511.091 2.18398 ====================== step 27/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5165.563 | 653.6068 4509.769 2.186693 x = 1 | f(x) = 5149.028 | 651.1024 4495.709 2.216675 x = 0.381966 | f(x) = 5158.561 | 652.4536 4503.909 2.198097 x = 0.618034 | f(x) = 5154.957 | 651.9305 4500.822 2.20517 x = 0.763932 | f(x) = 5152.451 | 651.537 4498.705 2.209556 x = 0.854102 | f(x) = 5150.868 | 651.2792 4497.376 2.212272 x = 0.90983 | f(x) = 5149.882 | 651.1152 4496.552 2.213952 ====================== step 28/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5148.356 | 650.8733 4495.266 2.216675 x = 1 | f(x) = 5131.941 | 648.2739 4481.42 2.246887 x = 0.381966 | f(x) = 5141.41 | 649.6736 4489.508 2.228155 x = 0.618034 | f(x) = 5137.836 | 649.1336 4486.467 2.235287 x = 0.763932 | f(x) = 5135.338 | 648.7232 4484.375 2.239709 x = 0.854102 | f(x) = 5133.757 | 648.4536 4483.061 2.242448 x = 0.90983 | f(x) = 5132.772 | 648.2819 4482.246 2.244142 ====================== step 29/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5131.251 | 648.0296 4480.975 2.246887 x = 1 | f(x) = 5114.658 | 645.3687 4467.012 2.277491 x = 0.381966 | f(x) = 5124.202 | 646.7884 4475.155 2.25852 x = 0.618034 | f(x) = 5120.59 | 646.2391 4472.085 2.265744 x = 0.763932 | f(x) = 5118.074 | 645.8201 4469.984 2.270222 x = 0.854102 | f(x) = 5116.483 | 645.5459 4468.665 2.272995 x = 0.90983 | f(x) = 5115.489 | 645.3718 4467.842 2.274711 ====================== step 30/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5113.944 | 645.1173 4466.549 2.277491 x = 1 | f(x) = 5097.497 | 642.6618 4452.527 2.308463 x = 0.381966 | f(x) = 5106.725 | 643.844 4460.592 2.289275 x = 0.618034 | f(x) = 5103.098 | 643.2994 4457.502 2.296598 x = 0.763932 | f(x) = 5100.679 | 642.9634 4455.415 2.301124 x = 0.854102 | f(x) = 5099.157 | 642.7437 4454.109 2.303926 x = 0.90983 | f(x) = 5098.211 | 642.6029 4453.303 2.305658 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.118434 Total Core solution elapsed time: 43.3181 Linear solver elapsed time: 20.9269 (48%) Total elapsed time: 0 hrs 0 min 43 sec loading results from cluster Step 4: Transient run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/100 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.09223e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 40.0062 > 1 % Convergence criterion: norm(du)/norm(u) 51.744 > 10 % Convergence criterion: max(du) 0.000156722 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96592e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 3.83978 > 1 % Convergence criterion: norm(du)/norm(u) 5.93163 < 10 % Convergence criterion: max(du) 1.86578e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03791e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 1.03774 > 1 % Convergence criterion: norm(du)/norm(u) 2.37988 < 10 % Convergence criterion: max(du) 7.83442e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.69089e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.258198 < 1 % Convergence criterion: norm(du)/norm(u) 1.07426 < 10 % Convergence criterion: max(du) 3.84522e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 4 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.51143e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/100 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.84203e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.579836 < 1 % Convergence criterion: norm(du)/norm(u) 42.6946 > 10 % Convergence criterion: max(du) 0.000129592 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99595e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.181112 < 1 % Convergence criterion: norm(du)/norm(u) 4.8599 < 10 % Convergence criterion: max(du) 1.22631e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04613e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 3/100 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.76604e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.29581 < 1 % Convergence criterion: norm(du)/norm(u) 23.2133 > 10 % Convergence criterion: max(du) 5.30421e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.01787e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0922583 < 1 % Convergence criterion: norm(du)/norm(u) 4.30905 < 10 % Convergence criterion: max(du) 1.56862e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.80925e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 4/100 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62929e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.198505 < 1 % Convergence criterion: norm(du)/norm(u) 12.4286 > 10 % Convergence criterion: max(du) 4.50849e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90702e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.054312 < 1 % Convergence criterion: norm(du)/norm(u) 4.66342 < 10 % Convergence criterion: max(du) 2.38723e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73965e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 5/100 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86635e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.165193 < 1 % Convergence criterion: norm(du)/norm(u) 10.4077 > 10 % Convergence criterion: max(du) 4.82107e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.7247e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0476213 < 1 % Convergence criterion: norm(du)/norm(u) 5.44265 < 10 % Convergence criterion: max(du) 2.84468e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.68408e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/100 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12108e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.149263 < 1 % Convergence criterion: norm(du)/norm(u) 9.21398 < 10 % Convergence criterion: max(du) 4.63752e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82047e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 7/100 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.94131e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.157105 < 1 % Convergence criterion: norm(du)/norm(u) 9.33302 < 10 % Convergence criterion: max(du) 5.19675e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.69406e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 8/100 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12358e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.154827 < 1 % Convergence criterion: norm(du)/norm(u) 8.22583 < 10 % Convergence criterion: max(du) 5.03355e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61522e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 9/100 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03605e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.149702 < 1 % Convergence criterion: norm(du)/norm(u) 6.67201 < 10 % Convergence criterion: max(du) 4.4308e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84835e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 10/100 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10827e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.144213 < 1 % Convergence criterion: norm(du)/norm(u) 5.15722 < 10 % Convergence criterion: max(du) 3.64248e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78938e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/100 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96106e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.138839 < 1 % Convergence criterion: norm(du)/norm(u) 3.91063 < 10 % Convergence criterion: max(du) 2.8626e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.52823e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 12/100 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8092e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.133785 < 1 % Convergence criterion: norm(du)/norm(u) 2.98574 < 10 % Convergence criterion: max(du) 2.20048e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79428e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 13/100 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72302e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.129165 < 1 % Convergence criterion: norm(du)/norm(u) 2.34244 < 10 % Convergence criterion: max(du) 1.69106e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.54674e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 14/100 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99231e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.124927 < 1 % Convergence criterion: norm(du)/norm(u) 1.90948 < 10 % Convergence criterion: max(du) 1.32356e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75856e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 15/100 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72208e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.121046 < 1 % Convergence criterion: norm(du)/norm(u) 1.61812 < 10 % Convergence criterion: max(du) 1.06836e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74922e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/100 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89042e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.117504 < 1 % Convergence criterion: norm(du)/norm(u) 1.41647 < 10 % Convergence criterion: max(du) 8.93782e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.43686e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 17/100 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.2092e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.114284 < 1 % Convergence criterion: norm(du)/norm(u) 1.27046 < 10 % Convergence criterion: max(du) 7.73462e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84765e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 18/100 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.82157e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.111367 < 1 % Convergence criterion: norm(du)/norm(u) 1.1594 < 10 % Convergence criterion: max(du) 6.88107e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72979e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 19/100 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.1063e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.108733 < 1 % Convergence criterion: norm(du)/norm(u) 1.07113 < 10 % Convergence criterion: max(du) 6.24711e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76324e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 20/100 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.05523e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.106356 < 1 % Convergence criterion: norm(du)/norm(u) 0.998493 < 10 % Convergence criterion: max(du) 5.75025e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.58735e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/100 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89603e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.104206 < 1 % Convergence criterion: norm(du)/norm(u) 0.937125 < 10 % Convergence criterion: max(du) 5.3407e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85673e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 22/100 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86398e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.102251 < 1 % Convergence criterion: norm(du)/norm(u) 0.884247 < 10 % Convergence criterion: max(du) 4.98966e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.16754e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 23/100 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.14905e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.100465 < 1 % Convergence criterion: norm(du)/norm(u) 0.838226 < 10 % Convergence criterion: max(du) 4.68095e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67697e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 24/100 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96856e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0988228 < 1 % Convergence criterion: norm(du)/norm(u) 0.797679 < 10 % Convergence criterion: max(du) 4.40552e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67276e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 25/100 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99982e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0973049 < 1 % Convergence criterion: norm(du)/norm(u) 0.761639 < 10 % Convergence criterion: max(du) 4.15807e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82257e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/100 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89713e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.09589 < 1 % Convergence criterion: norm(du)/norm(u) 0.729262 < 10 % Convergence criterion: max(du) 3.93508e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.49363e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 27/100 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88832e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0945622 < 1 % Convergence criterion: norm(du)/norm(u) 0.699987 < 10 % Convergence criterion: max(du) 3.73383e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75734e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 28/100 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.85976e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0933088 < 1 % Convergence criterion: norm(du)/norm(u) 0.673373 < 10 % Convergence criterion: max(du) 3.55194e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65269e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 29/100 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75977e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0921186 < 1 % Convergence criterion: norm(du)/norm(u) 0.649074 < 10 % Convergence criterion: max(du) 3.38733e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74177e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 30/100 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81531e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0909765 < 1 % Convergence criterion: norm(du)/norm(u) 0.626782 < 10 % Convergence criterion: max(du) 3.23787e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.22844e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/100 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.22427e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0898938 < 1 % Convergence criterion: norm(du)/norm(u) 0.606266 < 10 % Convergence criterion: max(du) 3.1018e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91519e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 32/100 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.73929e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0888679 < 1 % Convergence criterion: norm(du)/norm(u) 0.587377 < 10 % Convergence criterion: max(du) 2.97749e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78989e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 33/100 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79511e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0878845 < 1 % Convergence criterion: norm(du)/norm(u) 0.570048 < 10 % Convergence criterion: max(du) 2.86347e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83319e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 34/100 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.91645e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0869359 < 1 % Convergence criterion: norm(du)/norm(u) 0.554064 < 10 % Convergence criterion: max(du) 2.75845e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67261e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 35/100 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71269e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0860176 < 1 % Convergence criterion: norm(du)/norm(u) 0.539173 < 10 % Convergence criterion: max(du) 2.6613e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98654e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/100 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99877e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0851273 < 1 % Convergence criterion: norm(du)/norm(u) 0.525203 < 10 % Convergence criterion: max(du) 2.5711e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63606e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 37/100 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.04542e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0842647 < 1 % Convergence criterion: norm(du)/norm(u) 0.51205 < 10 % Convergence criterion: max(du) 2.48706e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.5801e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 38/100 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.80554e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0834299 < 1 % Convergence criterion: norm(du)/norm(u) 0.499628 < 10 % Convergence criterion: max(du) 2.40854e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65965e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 39/100 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.97848e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0826229 < 1 % Convergence criterion: norm(du)/norm(u) 0.487841 < 10 % Convergence criterion: max(du) 2.33498e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85516e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 40/100 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.83641e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.081843 < 1 % Convergence criterion: norm(du)/norm(u) 0.47662 < 10 % Convergence criterion: max(du) 2.2659e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9513e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/100 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8257e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0810856 < 1 % Convergence criterion: norm(du)/norm(u) 0.465877 < 10 % Convergence criterion: max(du) 2.20091e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77254e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 42/100 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.02118e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0803506 < 1 % Convergence criterion: norm(du)/norm(u) 0.455531 < 10 % Convergence criterion: max(du) 2.13964e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62357e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 43/100 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95356e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0796359 < 1 % Convergence criterion: norm(du)/norm(u) 0.445517 < 10 % Convergence criterion: max(du) 2.08176e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63621e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 44/100 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.82824e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.07894 < 1 % Convergence criterion: norm(du)/norm(u) 0.435768 < 10 % Convergence criterion: max(du) 2.02701e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.66286e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 45/100 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81567e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0782614 < 1 % Convergence criterion: norm(du)/norm(u) 0.42629 < 10 % Convergence criterion: max(du) 1.97513e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88786e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/100 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95219e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0775988 < 1 % Convergence criterion: norm(du)/norm(u) 0.417072 < 10 % Convergence criterion: max(du) 1.9259e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82525e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 47/100 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.05582e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0769509 < 1 % Convergence criterion: norm(du)/norm(u) 0.408118 < 10 % Convergence criterion: max(du) 1.8791e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59457e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 48/100 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.119e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0763168 < 1 % Convergence criterion: norm(du)/norm(u) 0.399417 < 10 % Convergence criterion: max(du) 1.83457e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85199e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 49/100 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.39839e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0756956 < 1 % Convergence criterion: norm(du)/norm(u) 0.390975 < 10 % Convergence criterion: max(du) 1.79214e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77225e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 50/100 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8478e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0750865 < 1 % Convergence criterion: norm(du)/norm(u) 0.382779 < 10 % Convergence criterion: max(du) 1.75173e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59014e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/100 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90478e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0744891 < 1 % Convergence criterion: norm(du)/norm(u) 0.374844 < 10 % Convergence criterion: max(du) 1.71313e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82529e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 52/100 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.9389e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0739079 < 1 % Convergence criterion: norm(du)/norm(u) 0.362827 < 10 % Convergence criterion: max(du) 1.6621e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61386e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 53/100 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95683e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0733373 < 1 % Convergence criterion: norm(du)/norm(u) 0.350628 < 10 % Convergence criterion: max(du) 1.60939e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90886e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 54/100 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10289e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0727769 < 1 % Convergence criterion: norm(du)/norm(u) 0.33879 < 10 % Convergence criterion: max(du) 1.55893e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9533e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 55/100 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88502e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0722264 < 1 % Convergence criterion: norm(du)/norm(u) 0.327423 < 10 % Convergence criterion: max(du) 1.51167e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74204e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/100 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.06961e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0716855 < 1 % Convergence criterion: norm(du)/norm(u) 0.316536 < 10 % Convergence criterion: max(du) 1.4676e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.64767e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 57/100 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.09359e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0711543 < 1 % Convergence criterion: norm(du)/norm(u) 0.306126 < 10 % Convergence criterion: max(du) 1.42643e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70239e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 58/100 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.32123e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0706323 < 1 % Convergence criterion: norm(du)/norm(u) 0.296179 < 10 % Convergence criterion: max(du) 1.38775e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.97828e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 59/100 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.65422e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0701194 < 1 % Convergence criterion: norm(du)/norm(u) 0.286654 < 10 % Convergence criterion: max(du) 1.35119e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73294e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 60/100 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03246e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0696153 < 1 % Convergence criterion: norm(du)/norm(u) 0.277549 < 10 % Convergence criterion: max(du) 1.3164e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.09671e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/100 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10365e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0691199 < 1 % Convergence criterion: norm(du)/norm(u) 0.268864 < 10 % Convergence criterion: max(du) 1.28311e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86058e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 62/100 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.00099e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.068633 < 1 % Convergence criterion: norm(du)/norm(u) 0.260586 < 10 % Convergence criterion: max(du) 1.25112e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73467e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 63/100 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.9449e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0681543 < 1 % Convergence criterion: norm(du)/norm(u) 0.252703 < 10 % Convergence criterion: max(du) 1.22026e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96854e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 64/100 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.64099e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0676835 < 1 % Convergence criterion: norm(du)/norm(u) 0.245188 < 10 % Convergence criterion: max(du) 1.19043e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65746e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 65/100 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.23996e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0672203 < 1 % Convergence criterion: norm(du)/norm(u) 0.237927 < 10 % Convergence criterion: max(du) 1.16154e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.7634e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/100 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.92004e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0667652 < 1 % Convergence criterion: norm(du)/norm(u) 0.231092 < 10 % Convergence criterion: max(du) 1.13352e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.8578e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 67/100 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10259e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0663172 < 1 % Convergence criterion: norm(du)/norm(u) 0.22462 < 10 % Convergence criterion: max(du) 1.10633e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98464e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 68/100 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79802e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0658764 < 1 % Convergence criterion: norm(du)/norm(u) 0.218499 < 10 % Convergence criterion: max(du) 1.0799e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91322e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 69/100 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.02886e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0654425 < 1 % Convergence criterion: norm(du)/norm(u) 0.212706 < 10 % Convergence criterion: max(du) 1.0542e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.71549e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 70/100 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86881e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0650153 < 1 % Convergence criterion: norm(du)/norm(u) 0.20725 < 10 % Convergence criterion: max(du) 1.02919e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81617e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/100 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.78058e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0645949 < 1 % Convergence criterion: norm(du)/norm(u) 0.202082 < 10 % Convergence criterion: max(du) 1.00482e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.46388e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 72/100 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.26043e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0641809 < 1 % Convergence criterion: norm(du)/norm(u) 0.197233 < 10 % Convergence criterion: max(du) 9.81074e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.58155e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 73/100 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.25195e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0637733 < 1 % Convergence criterion: norm(du)/norm(u) 0.192578 < 10 % Convergence criterion: max(du) 9.57908e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.56169e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 74/100 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90375e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.063372 < 1 % Convergence criterion: norm(du)/norm(u) 0.188381 < 10 % Convergence criterion: max(du) 9.3529e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62269e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 75/100 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.15508e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0629767 < 1 % Convergence criterion: norm(du)/norm(u) 0.18449 < 10 % Convergence criterion: max(du) 9.13182e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/100 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.30995e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0625876 < 1 % Convergence criterion: norm(du)/norm(u) 0.180899 < 10 % Convergence criterion: max(du) 8.91577e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.49007e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 77/100 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12299e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0622044 < 1 % Convergence criterion: norm(du)/norm(u) 0.177604 < 10 % Convergence criterion: max(du) 8.70459e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70474e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 78/100 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96837e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0618266 < 1 % Convergence criterion: norm(du)/norm(u) 0.174598 < 10 % Convergence criterion: max(du) 8.49801e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77584e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 79/100 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86134e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0614541 < 1 % Convergence criterion: norm(du)/norm(u) 0.171868 < 10 % Convergence criterion: max(du) 8.42481e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.56416e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 80/100 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.65985e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0610872 < 1 % Convergence criterion: norm(du)/norm(u) 0.169371 < 10 % Convergence criterion: max(du) 8.5016e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81275e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/100 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.94243e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0607257 < 1 % Convergence criterion: norm(du)/norm(u) 0.166878 < 10 % Convergence criterion: max(du) 8.56847e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82001e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 82/100 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.97888e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0603694 < 1 % Convergence criterion: norm(du)/norm(u) 0.164926 < 10 % Convergence criterion: max(du) 8.62499e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.19232e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 83/100 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.59618e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0600192 < 1 % Convergence criterion: norm(du)/norm(u) 0.163357 < 10 % Convergence criterion: max(du) 8.72759e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6725e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 84/100 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.74431e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0596741 < 1 % Convergence criterion: norm(du)/norm(u) 0.162021 < 10 % Convergence criterion: max(du) 8.81599e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.46396e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 85/100 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81627e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0593326 < 1 % Convergence criterion: norm(du)/norm(u) 0.160712 < 10 % Convergence criterion: max(du) 8.84127e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.45952e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/100 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79515e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0589956 < 1 % Convergence criterion: norm(du)/norm(u) 0.159568 < 10 % Convergence criterion: max(du) 8.8477e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.51294e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 87/100 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8294e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0586632 < 1 % Convergence criterion: norm(du)/norm(u) 0.158695 < 10 % Convergence criterion: max(du) 8.83843e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.03352e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 88/100 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.0172e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0583353 < 1 % Convergence criterion: norm(du)/norm(u) 0.158032 < 10 % Convergence criterion: max(du) 8.81648e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81061e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 89/100 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89271e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0580117 < 1 % Convergence criterion: norm(du)/norm(u) 0.157615 < 10 % Convergence criterion: max(du) 8.78242e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.71492e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 90/100 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.91209e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0576926 < 1 % Convergence criterion: norm(du)/norm(u) 0.157574 < 10 % Convergence criterion: max(du) 8.73655e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94964e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/100 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.00765e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0573778 < 1 % Convergence criterion: norm(du)/norm(u) 0.157866 < 10 % Convergence criterion: max(du) 8.67918e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84296e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 92/100 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95899e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0570669 < 1 % Convergence criterion: norm(du)/norm(u) 0.158338 < 10 % Convergence criterion: max(du) 8.61067e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88742e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 93/100 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68686e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0567599 < 1 % Convergence criterion: norm(du)/norm(u) 0.158938 < 10 % Convergence criterion: max(du) 8.53142e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.95539e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 94/100 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53757e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0564556 < 1 % Convergence criterion: norm(du)/norm(u) 0.159689 < 10 % Convergence criterion: max(du) 8.44192e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67251e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 95/100 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62914e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0561557 < 1 % Convergence criterion: norm(du)/norm(u) 0.160629 < 10 % Convergence criterion: max(du) 8.34268e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61681e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/100 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.92136e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.05586 < 1 % Convergence criterion: norm(du)/norm(u) 0.161758 < 10 % Convergence criterion: max(du) 8.23427e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86806e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 97/100 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.24742e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0555678 < 1 % Convergence criterion: norm(du)/norm(u) 0.162987 < 10 % Convergence criterion: max(du) 8.11726e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04524e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 98/100 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.70217e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0552798 < 1 % Convergence criterion: norm(du)/norm(u) 0.164309 < 10 % Convergence criterion: max(du) 7.9923e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96292e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 99/100 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88142e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0549959 < 1 % Convergence criterion: norm(du)/norm(u) 0.166002 < 10 % Convergence criterion: max(du) 7.86001e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.05831e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 100/100 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.78073e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0547161 < 1 % Convergence criterion: norm(du)/norm(u) 0.167956 < 10 % Convergence criterion: max(du) 7.74989e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.19113e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.108307 Total Core solution elapsed time: 31.0004 Linear solver elapsed time: 15.7852 (51%) Total elapsed time: 0 hrs 0 min 31 sec loading results from cluster Step 5: Plotting 2024-07-30 22:01:17.536 MATLAB[96088:144877348] XType: com.apple.fonts is not accessible. 2024-07-30 22:01:17.536 MATLAB[96088:144877348] XType: XTFontStaticRegistry is enabled. 2024-07-30 22:01:17.718 MATLAB[96088:144877348] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:01:17.718 MATLAB[96088:144877348] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 22:01:17.719 MATLAB[96088:144877348] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:01:17.724 MATLAB[96088:144877348] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:01:17.724 MATLAB[96088:144877348] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. SUCCESS Testing example: IceflowModels < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.060606 Total Core solution elapsed time: 0.093187 Linear solver elapsed time: 0.015591 (17%) Total elapsed time: 0 hrs 0 min 0 sec SUCCESS Testing example: Inversion < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag creating flow law paramter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031791 Total Core solution elapsed time: 0.20924 Linear solver elapsed time: 0.183709 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster 2024-07-30 22:01:47.449 MATLAB[97426:144878217] XType: com.apple.fonts is not accessible. 2024-07-30 22:01:47.449 MATLAB[97426:144878217] XType: XTFontStaticRegistry is enabled. 2024-07-30 22:01:47.631 MATLAB[97426:144878217] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:01:47.631 MATLAB[97426:144878217] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 22:01:47.632 MATLAB[97426:144878217] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:01:47.636 MATLAB[97426:144878217] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:01:47.636 MATLAB[97426:144878217] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.037557 Total Core solution elapsed time: 0.223143 Linear solver elapsed time: 0.195685 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 β”‚ β”‚ 10 β”‚ f(x)= 52.098 β”‚ 4.15e-07 β”‚ 52.1 β”‚ β”‚ 11 β”‚ f(x)= 26.462 β”‚ 2.72e-07 β”‚ 26.46 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 β”‚ β”‚ 13 β”‚ f(x)= 9.8225 β”‚ 1.14e-07 β”‚ 9.822 β”‚ β”‚ 14 β”‚ f(x)= 5.8087 β”‚ 9.69e-08 β”‚ 5.809 β”‚ β”‚ 15 β”‚ f(x)= 2.4895 β”‚ 9.36e-08 β”‚ 2.49 β”‚ β”‚ 16 β”‚ f(x)= 1.7087 β”‚ 3.9e-08 β”‚ 1.709 β”‚ β”‚ 17 β”‚ f(x)= 1.3549 β”‚ 3.96e-08 β”‚ 1.355 β”‚ β”‚ 18 β”‚ f(x)= 0.88095 β”‚ 4.29e-08 β”‚ 0.8809 β”‚ β”‚ 19 β”‚ f(x)= 0.47917 β”‚ 1.58e-08 β”‚ 0.4792 β”‚ β”‚ 20 β”‚ f(x)= 0.39798 β”‚ 1.12e-08 β”‚ 0.398 β”‚ β”‚ 21 β”‚ f(x)= 0.32618 β”‚ 1.1e-08 β”‚ 0.3262 β”‚ β”‚ 22 β”‚ f(x)= 0.20219 β”‚ 9.75e-09 β”‚ 0.2022 β”‚ β”‚ 23 β”‚ f(x)= 0.19258 β”‚ 2e-08 β”‚ 0.1926 β”‚ β”‚ 24 β”‚ f(x)= 0.13083 β”‚ 9e-09 β”‚ 0.1308 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.036757 Total Core solution elapsed time: 3.92221 Linear solver elapsed time: 3.37571 (86%) Total elapsed time: 0 hrs 0 min 3 sec INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-30 β”‚ β”‚ 2 β”‚ f(x)= 71319 β”‚ 0.000249 β”‚ 7.132e+04 3.972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0007499 β”‚ β”‚ 4 β”‚ f(x)= 2627.9 β”‚ 1.74e-05 β”‚ 2627 1.297 β”‚ β”‚ 5 β”‚ f(x)= 501.86 β”‚ 3.38e-06 β”‚ 501.8 0.07914 β”‚ β”‚ 6 β”‚ f(x)= 727.82 β”‚ 7.39e-06 β”‚ 726.8 1.025 β”‚ β”‚ 7 β”‚ f(x)= 161.71 β”‚ 1.37e-06 β”‚ 161.4 0.2828 β”‚ β”‚ 8 β”‚ f(x)= 110.74 β”‚ 1.54e-06 β”‚ 110.1 0.6226 β”‚ β”‚ 9 β”‚ f(x)= 75.417 β”‚ 7.01e-07 β”‚ 74.86 0.5524 β”‚ β”‚ 10 β”‚ f(x)= 50.079 β”‚ 3.95e-07 β”‚ 49.47 0.6103 β”‚ β”‚ 11 β”‚ f(x)= 27.016 β”‚ 2.74e-07 β”‚ 26.23 0.7915 β”‚ β”‚ 12 β”‚ f(x)= 15.765 β”‚ 1.64e-07 β”‚ 14.96 0.806 β”‚ β”‚ 13 β”‚ f(x)= 10.429 β”‚ 1.16e-07 β”‚ 9.679 0.7495 β”‚ β”‚ 14 β”‚ f(x)= 6.1855 β”‚ 9.8e-08 β”‚ 5.48 0.706 β”‚ β”‚ 15 β”‚ f(x)= 2.894 β”‚ 8.74e-08 β”‚ 2.219 0.6751 β”‚ β”‚ 16 β”‚ f(x)= 2.0594 β”‚ 3.93e-08 β”‚ 1.444 0.6159 β”‚ β”‚ 17 β”‚ f(x)= 1.6545 β”‚ 3.92e-08 β”‚ 1.06 0.5944 β”‚ β”‚ 18 β”‚ f(x)= 1.2382 β”‚ 3.66e-08 β”‚ 0.6934 0.5447 β”‚ β”‚ 19 β”‚ f(x)= 0.93157 β”‚ 2.26e-08 β”‚ 0.4485 0.4831 β”‚ β”‚ 20 β”‚ f(x)= 0.82377 β”‚ 1.47e-08 β”‚ 0.3782 0.4455 β”‚ β”‚ 21 β”‚ f(x)= 0.73206 β”‚ 1.53e-08 β”‚ 0.3127 0.4193 β”‚ β”‚ 22 β”‚ f(x)= 0.60194 β”‚ 1.25e-08 β”‚ 0.2118 0.3902 β”‚ β”‚ 23 β”‚ f(x)= 0.56118 β”‚ 1.3e-08 β”‚ 0.1899 0.3713 β”‚ β”‚ 24 β”‚ f(x)= 0.54169 β”‚ 7.15e-09 β”‚ 0.1757 0.366 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.037069 Total Core solution elapsed time: 3.81406 Linear solver elapsed time: 3.29046 (86%) Total elapsed time: 0 hrs 0 min 3 sec SUCCESS Testing example: Jakobshavn < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 3007 Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating thicknesses Interpolating bedrock topography Constructing surface elevation Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions boundary conditions for stressbalance model: spc set as observed velocities no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file Jakobshavn.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 83691.82 | 83608.87 82.9538 x = 1 | f(x) = 71282.22 | 71202.56 79.65915 ====================== step 2/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 71434.03 | 71354.35 79.67283 x = 1 | f(x) = 61944.77 | 61868.32 76.4542 ====================== step 3/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 61661.08 | 61584.65 76.42878 x = 1 | f(x) = 55044.64 | 54971.17 73.46996 ====================== step 4/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 54783.23 | 54709.79 73.44058 x = 1 | f(x) = 49978.08 | 49907.35 70.7277 ====================== step 5/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 49772.38 | 49701.68 70.70017 x = 1 | f(x) = 46134.88 | 46066.67 68.21092 ====================== step 6/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 45971.44 | 45903.26 68.18565 x = 1 | f(x) = 43246.98 | 43181.03 65.95402 ====================== step 7/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 43116.42 | 43050.49 65.93162 x = 1 | f(x) = 41186.24 | 41122.2 64.04128 ====================== step 8/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 41086.83 | 41022.81 64.02207 x = 1 | f(x) = 39691.01 | 39628.64 62.36093 ====================== step 9/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39617.72 | 39555.37 62.34435 x = 1 | f(x) = 38647.74 | 38586.78 60.96179 ====================== step 10/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38542.7 | 38481.76 60.93448 x = 1 | f(x) = 37742.73 | 37683.01 59.72204 ====================== step 11/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37651.01 | 37591.32 59.69631 x = 1 | f(x) = 36980.6 | 36922 58.60387 ====================== step 12/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36901.71 | 36843.13 58.58021 x = 1 | f(x) = 36328.21 | 36270.64 57.57771 ====================== step 13/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36259.35 | 36201.79 57.55583 x = 1 | f(x) = 35760.77 | 35704.15 56.6245 ====================== step 14/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35699.86 | 35643.25 56.60405 x = 1 | f(x) = 35257.21 | 35201.48 55.7326 ====================== step 15/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35202.45 | 35146.74 55.71261 x = 1 | f(x) = 34832.95 | 34778.07 54.88295 ====================== step 16/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34786.61 | 34731.75 54.86544 x = 1 | f(x) = 34479.86 | 34425.78 54.08727 x = 0.381966 | f(x) = 34579.35 | 34524.82 54.53269 x = 0.618034 | f(x) = 34536.62 | 34482.25 54.36682 x = 0.763932 | f(x) = 34495.21 | 34440.96 54.2533 x = 0.854102 | f(x) = 34462.49 | 34408.31 54.17991 x = 0.90983 | f(x) = 34438.41 | 34384.27 54.1331 ====================== step 17/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34428.06 | 34373.94 54.12786 x = 1 | f(x) = 34186.62 | 34133.22 53.39879 x = 0.381966 | f(x) = 34281.41 | 34227.59 53.82491 x = 0.618034 | f(x) = 34245.75 | 34192.08 53.66858 x = 0.763932 | f(x) = 34211.4 | 34157.84 53.56115 x = 0.854102 | f(x) = 34184.23 | 34130.74 53.49158 x = 0.90983 | f(x) = 34164.21 | 34110.77 53.4472 ====================== step 18/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34155.78 | 34102.33 53.44227 x = 1 | f(x) = 33946.97 | 33894.23 52.74752 x = 0.381966 | f(x) = 34030.65 | 33977.49 53.1537 x = 0.618034 | f(x) = 34000.42 | 33947.42 53.00515 x = 0.763932 | f(x) = 33970.44 | 33917.53 52.90262 x = 0.854102 | f(x) = 33946.39 | 33893.55 52.83617 x = 0.90983 | f(x) = 33928.5 | 33875.7 52.79378 ====================== step 19/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 33920.82 | 33868.03 52.789 x = 1 | f(x) = 33740.96 | 33688.83 52.12422 x = 0.381966 | f(x) = 33811.12 | 33758.61 52.51346 x = 0.618034 | f(x) = 33784.82 | 33732.45 52.37163 x = 0.763932 | f(x) = 33759.33 | 33707.05 52.27353 x = 0.854102 | f(x) = 33739.07 | 33686.86 52.20992 x = 0.90983 | f(x) = 33724.1 | 33671.93 52.16935 ====================== step 20/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 33717.79 | 33665.62 52.16487 x = 1 | f(x) = 33583.19 | 33531.66 51.52454 x = 0.381966 | f(x) = 33635.61 | 33583.71 51.90026 x = 0.618034 | f(x) = 33615.74 | 33563.98 51.76344 x = 0.763932 | f(x) = 33597 | 33545.33 51.66875 x = 0.854102 | f(x) = 33582.39 | 33530.78 51.60748 x = 0.90983 | f(x) = 33571.73 | 33520.16 51.56847 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.063785 Total Core solution elapsed time: 11.9127 Linear solver elapsed time: 8.15876 (68%) Total elapsed time: 0 hrs 0 min 11 sec loading results from cluster Plotting 2024-07-30 22:02:27.454 MATLAB[97628:144878894] XType: com.apple.fonts is not accessible. 2024-07-30 22:02:27.454 MATLAB[97628:144878894] XType: XTFontStaticRegistry is enabled. 2024-07-30 22:02:27.633 MATLAB[97628:144878894] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:02:27.633 MATLAB[97628:144878894] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 22:02:27.634 MATLAB[97628:144878894] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:02:27.638 MATLAB[97628:144878894] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:02:27.639 MATLAB[97628:144878894] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. SUCCESS Testing example: LcurveAnalysis < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag creating flow law paramter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031951 Total Core solution elapsed time: 0.217099 Linear solver elapsed time: 0.188342 (87%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster 2024-07-30 22:02:43.461 MATLAB[97739:144879282] XType: com.apple.fonts is not accessible. 2024-07-30 22:02:43.461 MATLAB[97739:144879282] XType: XTFontStaticRegistry is enabled. 2024-07-30 22:02:43.654 MATLAB[97739:144879282] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:02:43.654 MATLAB[97739:144879282] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 22:02:43.655 MATLAB[97739:144879282] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:02:43.659 MATLAB[97739:144879282] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:02:43.659 MATLAB[97739:144879282] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031989 Total Core solution elapsed time: 0.223673 Linear solver elapsed time: 0.196198 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster ------------------------------------------------------------ alpha iteration: 1/31, alpha value: 1e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.0003972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 7.5e-08 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 0.0001327 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 7.927e-06 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 0.0001068 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 2.844e-05 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 6.549e-05 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 5.715e-05 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 6.311e-05 β”‚ β”‚ 11 β”‚ f(x)= 26.462 β”‚ 2.72e-07 β”‚ 26.46 8.565e-05 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 9.124e-05 β”‚ β”‚ 13 β”‚ f(x)= 9.8226 β”‚ 1.14e-07 β”‚ 9.822 9.174e-05 β”‚ β”‚ 14 β”‚ f(x)= 5.8087 β”‚ 9.69e-08 β”‚ 5.809 9.448e-05 β”‚ β”‚ 15 β”‚ f(x)= 2.4896 β”‚ 9.36e-08 β”‚ 2.489 0.0001059 β”‚ β”‚ 16 β”‚ f(x)= 1.7088 β”‚ 3.9e-08 β”‚ 1.709 0.0001056 β”‚ β”‚ 17 β”‚ f(x)= 1.3549 β”‚ 3.96e-08 β”‚ 1.355 0.0001093 β”‚ β”‚ 18 β”‚ f(x)= 0.88103 β”‚ 4.29e-08 β”‚ 0.8809 0.0001114 β”‚ β”‚ 19 β”‚ f(x)= 0.47927 β”‚ 1.58e-08 β”‚ 0.4791 0.0001157 β”‚ β”‚ 20 β”‚ f(x)= 0.39808 β”‚ 1.12e-08 β”‚ 0.398 0.0001159 β”‚ β”‚ 21 β”‚ f(x)= 0.32628 β”‚ 1.1e-08 β”‚ 0.3262 0.0001175 β”‚ β”‚ 22 β”‚ f(x)= 0.20229 β”‚ 9.75e-09 β”‚ 0.2022 0.0001245 β”‚ β”‚ 23 β”‚ f(x)= 0.1927 β”‚ 2e-08 β”‚ 0.1926 0.000128 β”‚ β”‚ 24 β”‚ f(x)= 0.13094 β”‚ 9e-09 β”‚ 0.1308 0.0001282 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.038091 Total Core solution elapsed time: 3.84155 Linear solver elapsed time: 3.31054 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 2/31, alpha value: 1.9953e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.0007924 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.496e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 0.0002648 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 1.582e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 0.0002131 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 5.675e-05 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0001307 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.000114 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 0.0001259 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.0001709 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 0.000182 β”‚ β”‚ 13 β”‚ f(x)= 9.8226 β”‚ 1.14e-07 β”‚ 9.822 0.000183 β”‚ β”‚ 14 β”‚ f(x)= 5.8088 β”‚ 9.69e-08 β”‚ 5.809 0.0001885 β”‚ β”‚ 15 β”‚ f(x)= 2.4897 β”‚ 9.36e-08 β”‚ 2.489 0.0002114 β”‚ β”‚ 16 β”‚ f(x)= 1.7088 β”‚ 3.9e-08 β”‚ 1.709 0.0002107 β”‚ β”‚ 17 β”‚ f(x)= 1.355 β”‚ 3.96e-08 β”‚ 1.355 0.000218 β”‚ β”‚ 18 β”‚ f(x)= 0.88111 β”‚ 4.29e-08 β”‚ 0.8809 0.0002223 β”‚ β”‚ 19 β”‚ f(x)= 0.47936 β”‚ 1.58e-08 β”‚ 0.4791 0.0002308 β”‚ β”‚ 20 β”‚ f(x)= 0.39819 β”‚ 1.12e-08 β”‚ 0.398 0.0002313 β”‚ β”‚ 21 β”‚ f(x)= 0.32639 β”‚ 1.1e-08 β”‚ 0.3262 0.0002344 β”‚ β”‚ 22 β”‚ f(x)= 0.2024 β”‚ 9.75e-09 β”‚ 0.2022 0.0002484 β”‚ β”‚ 23 β”‚ f(x)= 0.19282 β”‚ 2e-08 β”‚ 0.1926 0.0002552 β”‚ β”‚ 24 β”‚ f(x)= 0.13105 β”‚ 9e-09 β”‚ 0.1308 0.0002557 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037512 Total Core solution elapsed time: 3.87955 Linear solver elapsed time: 3.33825 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 3/31, alpha value: 3.9811e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.001581 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 2.986e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.0005284 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 3.156e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.29 β”‚ 7.53e-06 β”‚ 749.3 0.0004251 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 0.0001132 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0002607 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0002275 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 0.0002512 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.000341 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 0.0003632 β”‚ β”‚ 13 β”‚ f(x)= 9.8228 β”‚ 1.14e-07 β”‚ 9.822 0.0003652 β”‚ β”‚ 14 β”‚ f(x)= 5.809 β”‚ 9.69e-08 β”‚ 5.809 0.0003761 β”‚ β”‚ 15 β”‚ f(x)= 2.4898 β”‚ 9.36e-08 β”‚ 2.489 0.0004217 β”‚ β”‚ 16 β”‚ f(x)= 1.709 β”‚ 3.9e-08 β”‚ 1.709 0.0004203 β”‚ β”‚ 17 β”‚ f(x)= 1.3551 β”‚ 3.96e-08 β”‚ 1.355 0.0004349 β”‚ β”‚ 18 β”‚ f(x)= 0.88126 β”‚ 4.29e-08 β”‚ 0.8808 0.0004435 β”‚ β”‚ 19 β”‚ f(x)= 0.47955 β”‚ 1.58e-08 β”‚ 0.4791 0.0004603 β”‚ β”‚ 20 β”‚ f(x)= 0.39839 β”‚ 1.11e-08 β”‚ 0.3979 0.0004613 β”‚ β”‚ 21 β”‚ f(x)= 0.3266 β”‚ 1.1e-08 β”‚ 0.3261 0.0004675 β”‚ β”‚ 22 β”‚ f(x)= 0.20261 β”‚ 9.75e-09 β”‚ 0.2021 0.0004953 β”‚ β”‚ 23 β”‚ f(x)= 0.19306 β”‚ 2e-08 β”‚ 0.1926 0.0005089 β”‚ β”‚ 24 β”‚ f(x)= 0.13126 β”‚ 9e-09 β”‚ 0.1308 0.0005098 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037207 Total Core solution elapsed time: 3.89898 Linear solver elapsed time: 3.3583 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 4/31, alpha value: 7.9433e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.003155 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 5.957e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.001054 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 6.297e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.29 β”‚ 7.53e-06 β”‚ 749.3 0.0008482 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 0.0002259 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0005202 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0004539 β”‚ β”‚ 10 β”‚ f(x)= 52.096 β”‚ 4.15e-07 β”‚ 52.1 0.0005013 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.0006803 β”‚ β”‚ 12 β”‚ f(x)= 15.28 β”‚ 1.65e-07 β”‚ 15.28 0.0007247 β”‚ β”‚ 13 β”‚ f(x)= 9.8232 β”‚ 1.14e-07 β”‚ 9.822 0.0007286 β”‚ β”‚ 14 β”‚ f(x)= 5.8092 β”‚ 9.69e-08 β”‚ 5.808 0.0007503 β”‚ β”‚ 15 β”‚ f(x)= 2.4901 β”‚ 9.36e-08 β”‚ 2.489 0.0008413 β”‚ β”‚ 16 β”‚ f(x)= 1.7093 β”‚ 3.9e-08 β”‚ 1.708 0.0008383 β”‚ β”‚ 17 β”‚ f(x)= 1.3554 β”‚ 3.96e-08 β”‚ 1.355 0.0008676 β”‚ β”‚ 18 β”‚ f(x)= 0.88158 β”‚ 4.29e-08 β”‚ 0.8807 0.0008846 β”‚ β”‚ 19 β”‚ f(x)= 0.47993 β”‚ 1.58e-08 β”‚ 0.479 0.000918 β”‚ β”‚ 20 β”‚ f(x)= 0.3988 β”‚ 1.11e-08 β”‚ 0.3979 0.0009198 β”‚ β”‚ 21 β”‚ f(x)= 0.32703 β”‚ 1.1e-08 β”‚ 0.3261 0.0009321 β”‚ β”‚ 22 β”‚ f(x)= 0.20304 β”‚ 9.74e-09 β”‚ 0.202 0.0009873 β”‚ β”‚ 23 β”‚ f(x)= 0.19354 β”‚ 2e-08 β”‚ 0.1925 0.001014 β”‚ β”‚ 24 β”‚ f(x)= 0.1317 β”‚ 8.99e-09 β”‚ 0.1307 0.001016 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037144 Total Core solution elapsed time: 3.97347 Linear solver elapsed time: 3.42025 (86%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 5/31, alpha value: 1.5849e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.006294 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.189e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.002104 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 0.0001256 β”‚ β”‚ 6 β”‚ f(x)= 749.27 β”‚ 7.53e-06 β”‚ 749.3 0.001692 β”‚ β”‚ 7 β”‚ f(x)= 165.56 β”‚ 1.42e-06 β”‚ 165.6 0.0004508 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.001038 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0009057 β”‚ β”‚ 10 β”‚ f(x)= 52.095 β”‚ 4.15e-07 β”‚ 52.09 0.001 β”‚ β”‚ 11 β”‚ f(x)= 26.464 β”‚ 2.72e-07 β”‚ 26.46 0.001357 β”‚ β”‚ 12 β”‚ f(x)= 15.28 β”‚ 1.65e-07 β”‚ 15.28 0.001446 β”‚ β”‚ 13 β”‚ f(x)= 9.8239 β”‚ 1.14e-07 β”‚ 9.822 0.001454 β”‚ β”‚ 14 β”‚ f(x)= 5.8098 β”‚ 9.69e-08 β”‚ 5.808 0.001497 β”‚ β”‚ 15 β”‚ f(x)= 2.4907 β”‚ 9.36e-08 β”‚ 2.489 0.001678 β”‚ β”‚ 16 β”‚ f(x)= 1.7099 β”‚ 3.9e-08 β”‚ 1.708 0.001672 β”‚ β”‚ 17 β”‚ f(x)= 1.356 β”‚ 3.96e-08 β”‚ 1.354 0.00173 β”‚ β”‚ 18 β”‚ f(x)= 0.88221 β”‚ 4.29e-08 β”‚ 0.8804 0.001764 β”‚ β”‚ 19 β”‚ f(x)= 0.48069 β”‚ 1.58e-08 β”‚ 0.4789 0.00183 β”‚ β”‚ 20 β”‚ f(x)= 0.39962 β”‚ 1.11e-08 β”‚ 0.3978 0.001833 β”‚ β”‚ 21 β”‚ f(x)= 0.32787 β”‚ 1.1e-08 β”‚ 0.326 0.001857 β”‚ β”‚ 22 β”‚ f(x)= 0.20388 β”‚ 9.74e-09 β”‚ 0.2019 0.001966 β”‚ β”‚ 23 β”‚ f(x)= 0.19449 β”‚ 2e-08 β”‚ 0.1925 0.002017 β”‚ β”‚ 24 β”‚ f(x)= 0.13256 β”‚ 8.99e-09 β”‚ 0.1305 0.00202 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036962 Total Core solution elapsed time: 3.76511 Linear solver elapsed time: 3.23906 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 6/31, alpha value: 3.1623e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.01256 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 2.372e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.004197 β”‚ β”‚ 5 β”‚ f(x)= 506.81 β”‚ 3.41e-06 β”‚ 506.8 0.0002507 β”‚ β”‚ 6 β”‚ f(x)= 749.23 β”‚ 7.53e-06 β”‚ 749.2 0.003376 β”‚ β”‚ 7 β”‚ f(x)= 165.56 β”‚ 1.42e-06 β”‚ 165.6 0.0008995 β”‚ β”‚ 8 β”‚ f(x)= 112.92 β”‚ 1.6e-06 β”‚ 112.9 0.002071 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.001807 β”‚ β”‚ 10 β”‚ f(x)= 52.092 β”‚ 4.15e-07 β”‚ 52.09 0.001995 β”‚ β”‚ 11 β”‚ f(x)= 26.465 β”‚ 2.72e-07 β”‚ 26.46 0.002708 β”‚ β”‚ 12 β”‚ f(x)= 15.281 β”‚ 1.65e-07 β”‚ 15.28 0.002884 β”‚ β”‚ 13 β”‚ f(x)= 9.8253 β”‚ 1.14e-07 β”‚ 9.822 0.002899 β”‚ β”‚ 14 β”‚ f(x)= 5.811 β”‚ 9.69e-08 β”‚ 5.808 0.002985 β”‚ β”‚ 15 β”‚ f(x)= 2.4918 β”‚ 9.36e-08 β”‚ 2.488 0.003345 β”‚ β”‚ 16 β”‚ f(x)= 1.711 β”‚ 3.9e-08 β”‚ 1.708 0.003332 β”‚ β”‚ 17 β”‚ f(x)= 1.3571 β”‚ 3.96e-08 β”‚ 1.354 0.003447 β”‚ β”‚ 18 β”‚ f(x)= 0.88346 β”‚ 4.29e-08 β”‚ 0.88 0.003513 β”‚ β”‚ 19 β”‚ f(x)= 0.48219 β”‚ 1.58e-08 β”‚ 0.4785 0.003643 β”‚ β”‚ 20 β”‚ f(x)= 0.40124 β”‚ 1.11e-08 β”‚ 0.3976 0.003648 β”‚ β”‚ 21 β”‚ f(x)= 0.32955 β”‚ 1.1e-08 β”‚ 0.3259 0.003694 β”‚ β”‚ 22 β”‚ f(x)= 0.20555 β”‚ 9.73e-09 β”‚ 0.2016 0.003905 β”‚ β”‚ 23 β”‚ f(x)= 0.19636 β”‚ 2.01e-08 β”‚ 0.1924 0.004 β”‚ β”‚ 24 β”‚ f(x)= 0.13426 β”‚ 8.97e-09 β”‚ 0.1303 0.004005 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037378 Total Core solution elapsed time: 3.8243 Linear solver elapsed time: 3.30324 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 7/31, alpha value: 6.3096e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.02506 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 4.732e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651 β”‚ 1.75e-05 β”‚ 2651 0.008374 β”‚ β”‚ 5 β”‚ f(x)= 506.79 β”‚ 3.41e-06 β”‚ 506.8 0.0005002 β”‚ β”‚ 6 β”‚ f(x)= 749.16 β”‚ 7.53e-06 β”‚ 749.2 0.006736 β”‚ β”‚ 7 β”‚ f(x)= 165.54 β”‚ 1.42e-06 β”‚ 165.5 0.001795 β”‚ β”‚ 8 β”‚ f(x)= 112.91 β”‚ 1.6e-06 β”‚ 112.9 0.004131 β”‚ β”‚ 9 β”‚ f(x)= 75.26 β”‚ 6.92e-07 β”‚ 75.26 0.003605 β”‚ β”‚ 10 β”‚ f(x)= 52.086 β”‚ 4.15e-07 β”‚ 52.08 0.003981 β”‚ β”‚ 11 β”‚ f(x)= 26.467 β”‚ 2.72e-07 β”‚ 26.46 0.005401 β”‚ β”‚ 12 β”‚ f(x)= 15.283 β”‚ 1.65e-07 β”‚ 15.28 0.005752 β”‚ β”‚ 13 β”‚ f(x)= 9.8281 β”‚ 1.14e-07 β”‚ 9.822 0.005781 β”‚ β”‚ 14 β”‚ f(x)= 5.8133 β”‚ 9.69e-08 β”‚ 5.807 0.00595 β”‚ β”‚ 15 β”‚ f(x)= 2.4941 β”‚ 9.36e-08 β”‚ 2.487 0.006662 β”‚ β”‚ 16 β”‚ f(x)= 1.7133 β”‚ 3.89e-08 β”‚ 1.707 0.006634 β”‚ β”‚ 17 β”‚ f(x)= 1.3593 β”‚ 3.96e-08 β”‚ 1.352 0.006861 β”‚ β”‚ 18 β”‚ f(x)= 0.88595 β”‚ 4.28e-08 β”‚ 0.879 0.006987 β”‚ β”‚ 19 β”‚ f(x)= 0.48517 β”‚ 1.58e-08 β”‚ 0.4779 0.007237 β”‚ β”‚ 20 β”‚ f(x)= 0.40445 β”‚ 1.11e-08 β”‚ 0.3972 0.007242 β”‚ β”‚ 21 β”‚ f(x)= 0.33288 β”‚ 1.1e-08 β”‚ 0.3255 0.007328 β”‚ β”‚ 22 β”‚ f(x)= 0.20884 β”‚ 9.71e-09 β”‚ 0.2011 0.007725 β”‚ β”‚ 23 β”‚ f(x)= 0.20004 β”‚ 2.02e-08 β”‚ 0.1922 0.007888 β”‚ β”‚ 24 β”‚ f(x)= 0.13758 β”‚ 8.95e-09 β”‚ 0.1297 0.007893 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037212 Total Core solution elapsed time: 3.80685 Linear solver elapsed time: 3.27022 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 8/31, alpha value: 1.2589e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.05 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 9.441e-06 β”‚ β”‚ 4 β”‚ f(x)= 2650.9 β”‚ 1.75e-05 β”‚ 2651 0.01671 β”‚ β”‚ 5 β”‚ f(x)= 506.76 β”‚ 3.41e-06 β”‚ 506.8 0.000998 β”‚ β”‚ 6 β”‚ f(x)= 749.03 β”‚ 7.53e-06 β”‚ 749 0.01344 β”‚ β”‚ 7 β”‚ f(x)= 165.52 β”‚ 1.42e-06 β”‚ 165.5 0.003581 β”‚ β”‚ 8 β”‚ f(x)= 112.9 β”‚ 1.6e-06 β”‚ 112.9 0.008239 β”‚ β”‚ 9 β”‚ f(x)= 75.261 β”‚ 6.92e-07 β”‚ 75.25 0.007192 β”‚ β”‚ 10 β”‚ f(x)= 52.075 β”‚ 4.15e-07 β”‚ 52.07 0.007942 β”‚ β”‚ 11 β”‚ f(x)= 26.472 β”‚ 2.72e-07 β”‚ 26.46 0.01077 β”‚ β”‚ 12 β”‚ f(x)= 15.287 β”‚ 1.65e-07 β”‚ 15.28 0.01147 β”‚ β”‚ 13 β”‚ f(x)= 9.8336 β”‚ 1.14e-07 β”‚ 9.822 0.01152 β”‚ β”‚ 14 β”‚ f(x)= 5.8178 β”‚ 9.69e-08 β”‚ 5.806 0.01185 β”‚ β”‚ 15 β”‚ f(x)= 2.4987 β”‚ 9.35e-08 β”‚ 2.485 0.01325 β”‚ β”‚ 16 β”‚ f(x)= 1.7179 β”‚ 3.89e-08 β”‚ 1.705 0.01318 β”‚ β”‚ 17 β”‚ f(x)= 1.3636 β”‚ 3.95e-08 β”‚ 1.35 0.01362 β”‚ β”‚ 18 β”‚ f(x)= 0.89087 β”‚ 4.28e-08 β”‚ 0.877 0.01385 β”‚ β”‚ 19 β”‚ f(x)= 0.49105 β”‚ 1.58e-08 β”‚ 0.4767 0.01432 β”‚ β”‚ 20 β”‚ f(x)= 0.41077 β”‚ 1.11e-08 β”‚ 0.3965 0.01431 β”‚ β”‚ 21 β”‚ f(x)= 0.3394 β”‚ 1.1e-08 β”‚ 0.3249 0.01445 β”‚ β”‚ 22 β”‚ f(x)= 0.21524 β”‚ 9.68e-09 β”‚ 0.2001 0.01515 β”‚ β”‚ 23 β”‚ f(x)= 0.20712 β”‚ 2.03e-08 β”‚ 0.1917 0.01538 β”‚ β”‚ 24 β”‚ f(x)= 0.14393 β”‚ 8.92e-09 β”‚ 0.1286 0.01537 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036833 Total Core solution elapsed time: 3.82487 Linear solver elapsed time: 3.28433 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 9/31, alpha value: 2.5119e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.09976 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.884e-05 β”‚ β”‚ 4 β”‚ f(x)= 2650.6 β”‚ 1.75e-05 β”‚ 2651 0.03332 β”‚ β”‚ 5 β”‚ f(x)= 506.7 β”‚ 3.4e-06 β”‚ 506.7 0.001991 β”‚ β”‚ 6 β”‚ f(x)= 748.75 β”‚ 7.53e-06 β”‚ 748.7 0.0268 β”‚ β”‚ 7 β”‚ f(x)= 165.47 β”‚ 1.42e-06 β”‚ 165.5 0.007144 β”‚ β”‚ 8 β”‚ f(x)= 112.87 β”‚ 1.6e-06 β”‚ 112.9 0.01643 β”‚ β”‚ 9 β”‚ f(x)= 75.263 β”‚ 6.92e-07 β”‚ 75.25 0.01434 β”‚ β”‚ 10 β”‚ f(x)= 52.052 β”‚ 4.15e-07 β”‚ 52.04 0.01584 β”‚ β”‚ 11 β”‚ f(x)= 26.482 β”‚ 2.72e-07 β”‚ 26.46 0.02147 β”‚ β”‚ 12 β”‚ f(x)= 15.295 β”‚ 1.65e-07 β”‚ 15.27 0.02285 β”‚ β”‚ 13 β”‚ f(x)= 9.8446 β”‚ 1.14e-07 β”‚ 9.822 0.02292 β”‚ β”‚ 14 β”‚ f(x)= 5.8268 β”‚ 9.69e-08 β”‚ 5.803 0.02354 β”‚ β”‚ 15 β”‚ f(x)= 2.5076 β”‚ 9.34e-08 β”‚ 2.481 0.02626 β”‚ β”‚ 16 β”‚ f(x)= 1.7268 β”‚ 3.89e-08 β”‚ 1.701 0.02608 β”‚ β”‚ 17 β”‚ f(x)= 1.3721 β”‚ 3.95e-08 β”‚ 1.345 0.02691 β”‚ β”‚ 18 β”‚ f(x)= 0.90047 β”‚ 4.27e-08 β”‚ 0.8732 0.0273 β”‚ β”‚ 19 β”‚ f(x)= 0.50251 β”‚ 1.57e-08 β”‚ 0.4744 0.02808 β”‚ β”‚ 20 β”‚ f(x)= 0.42306 β”‚ 1.11e-08 β”‚ 0.3951 0.02799 β”‚ β”‚ 21 β”‚ f(x)= 0.35201 β”‚ 1.1e-08 β”‚ 0.3238 0.02819 β”‚ β”‚ 22 β”‚ f(x)= 0.22742 β”‚ 9.65e-09 β”‚ 0.1982 0.02924 β”‚ β”‚ 23 β”‚ f(x)= 0.22033 β”‚ 2.06e-08 β”‚ 0.191 0.02932 β”‚ β”‚ 24 β”‚ f(x)= 0.15559 β”‚ 8.91e-09 β”‚ 0.1263 0.02925 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.041364 Total Core solution elapsed time: 3.78294 Linear solver elapsed time: 3.26257 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 10/31, alpha value: 5.0119e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.199 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 3.759e-05 β”‚ β”‚ 4 β”‚ f(x)= 2650 β”‚ 1.75e-05 β”‚ 2650 0.06645 β”‚ β”‚ 5 β”‚ f(x)= 506.57 β”‚ 3.4e-06 β”‚ 506.6 0.003973 β”‚ β”‚ 6 β”‚ f(x)= 748.2 β”‚ 7.53e-06 β”‚ 748.1 0.05341 β”‚ β”‚ 7 β”‚ f(x)= 165.37 β”‚ 1.42e-06 β”‚ 165.4 0.01425 β”‚ β”‚ 8 β”‚ f(x)= 112.81 β”‚ 1.6e-06 β”‚ 112.8 0.03274 β”‚ β”‚ 9 β”‚ f(x)= 75.268 β”‚ 6.92e-07 β”‚ 75.24 0.02859 β”‚ β”‚ 10 β”‚ f(x)= 52.006 β”‚ 4.14e-07 β”‚ 51.97 0.03157 β”‚ β”‚ 11 β”‚ f(x)= 26.501 β”‚ 2.72e-07 β”‚ 26.46 0.04275 β”‚ β”‚ 12 β”‚ f(x)= 15.31 β”‚ 1.65e-07 β”‚ 15.26 0.04544 β”‚ β”‚ 13 β”‚ f(x)= 9.8662 β”‚ 1.14e-07 β”‚ 9.821 0.04549 β”‚ β”‚ 14 β”‚ f(x)= 5.8443 β”‚ 9.69e-08 β”‚ 5.798 0.04661 β”‚ β”‚ 15 β”‚ f(x)= 2.525 β”‚ 9.33e-08 β”‚ 2.473 0.05169 β”‚ β”‚ 16 β”‚ f(x)= 1.7441 β”‚ 3.89e-08 β”‚ 1.693 0.05117 β”‚ β”‚ 17 β”‚ f(x)= 1.3885 β”‚ 3.94e-08 β”‚ 1.336 0.05264 β”‚ β”‚ 18 β”‚ f(x)= 0.91888 β”‚ 4.25e-08 β”‚ 0.8657 0.05313 β”‚ β”‚ 19 β”‚ f(x)= 0.52432 β”‚ 1.57e-08 β”‚ 0.4701 0.05419 β”‚ β”‚ 20 β”‚ f(x)= 0.44626 β”‚ 1.11e-08 β”‚ 0.3925 0.05373 β”‚ β”‚ 21 β”‚ f(x)= 0.37552 β”‚ 1.1e-08 β”‚ 0.3217 0.0538 β”‚ β”‚ 22 β”‚ f(x)= 0.24904 β”‚ 9.7e-09 β”‚ 0.1943 0.0547 β”‚ β”‚ 23 β”‚ f(x)= 0.24513 β”‚ 2.14e-08 β”‚ 0.1915 0.05361 β”‚ β”‚ 24 β”‚ f(x)= 0.17588 β”‚ 9.03e-09 β”‚ 0.1225 0.05334 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036956 Total Core solution elapsed time: 3.85846 Linear solver elapsed time: 3.32319 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 11/31, alpha value: 1e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-31 β”‚ β”‚ 2 β”‚ f(x)= 71316 β”‚ 0.000249 β”‚ 7.132e+04 0.3972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 7.5e-05 β”‚ β”‚ 4 β”‚ f(x)= 2648.8 β”‚ 1.75e-05 β”‚ 2649 0.1324 β”‚ β”‚ 5 β”‚ f(x)= 506.33 β”‚ 3.4e-06 β”‚ 506.3 0.007926 β”‚ β”‚ 6 β”‚ f(x)= 747.1 β”‚ 7.52e-06 β”‚ 747 0.1063 β”‚ β”‚ 7 β”‚ f(x)= 165.17 β”‚ 1.41e-06 β”‚ 165.1 0.02843 β”‚ β”‚ 8 β”‚ f(x)= 112.7 β”‚ 1.6e-06 β”‚ 112.6 0.06515 β”‚ β”‚ 9 β”‚ f(x)= 75.277 β”‚ 6.93e-07 β”‚ 75.22 0.05695 β”‚ β”‚ 10 β”‚ f(x)= 51.914 β”‚ 4.13e-07 β”‚ 51.85 0.06289 β”‚ β”‚ 11 β”‚ f(x)= 26.538 β”‚ 2.72e-07 β”‚ 26.45 0.08494 β”‚ β”‚ 12 β”‚ f(x)= 15.34 β”‚ 1.65e-07 β”‚ 15.25 0.09009 β”‚ β”‚ 13 β”‚ f(x)= 9.9083 β”‚ 1.14e-07 β”‚ 9.818 0.08979 β”‚ β”‚ 14 β”‚ f(x)= 5.8778 β”‚ 9.68e-08 β”‚ 5.786 0.09155 β”‚ β”‚ 15 β”‚ f(x)= 2.5582 β”‚ 9.29e-08 β”‚ 2.458 0.1005 β”‚ β”‚ 16 β”‚ f(x)= 1.7765 β”‚ 3.88e-08 β”‚ 1.678 0.09881 β”‚ β”‚ 17 β”‚ f(x)= 1.4188 β”‚ 3.94e-08 β”‚ 1.318 0.1011 β”‚ β”‚ 18 β”‚ f(x)= 0.95274 β”‚ 4.21e-08 β”‚ 0.8517 0.101 β”‚ β”‚ 19 β”‚ f(x)= 0.56408 β”‚ 1.58e-08 β”‚ 0.4627 0.1014 β”‚ β”‚ 20 β”‚ f(x)= 0.488 β”‚ 1.12e-08 β”‚ 0.3884 0.09956 β”‚ β”‚ 21 β”‚ f(x)= 0.41705 β”‚ 1.12e-08 β”‚ 0.3184 0.09862 β”‚ β”‚ 22 β”‚ f(x)= 0.28568 β”‚ 1e-08 β”‚ 0.189 0.09667 β”‚ β”‚ 23 β”‚ f(x)= 0.28121 β”‚ 2.25e-08 β”‚ 0.1903 0.09089 β”‚ β”‚ 24 β”‚ f(x)= 0.20437 β”‚ 9.54e-09 β”‚ 0.1145 0.08988 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037959 Total Core solution elapsed time: 3.79093 Linear solver elapsed time: 3.26833 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 12/31, alpha value: 1.9953e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-31 β”‚ β”‚ 2 β”‚ f(x)= 71316 β”‚ 0.000249 β”‚ 7.132e+04 0.7924 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0001496 β”‚ β”‚ 4 β”‚ f(x)= 2646.5 β”‚ 1.75e-05 β”‚ 2646 0.2636 β”‚ β”‚ 5 β”‚ f(x)= 505.83 β”‚ 3.4e-06 β”‚ 505.8 0.01581 β”‚ β”‚ 6 β”‚ f(x)= 744.93 β”‚ 7.5e-06 β”‚ 744.7 0.2113 β”‚ β”‚ 7 β”‚ f(x)= 164.78 β”‚ 1.41e-06 β”‚ 164.7 0.05669 β”‚ β”‚ 8 β”‚ f(x)= 112.47 β”‚ 1.59e-06 β”‚ 112.3 0.1293 β”‚ β”‚ 9 β”‚ f(x)= 75.295 β”‚ 6.93e-07 β”‚ 75.18 0.1133 β”‚ β”‚ 10 β”‚ f(x)= 51.727 β”‚ 4.11e-07 β”‚ 51.6 0.125 β”‚ β”‚ 11 β”‚ f(x)= 26.608 β”‚ 2.72e-07 β”‚ 26.44 0.1681 β”‚ β”‚ 12 β”‚ f(x)= 15.398 β”‚ 1.64e-07 β”‚ 15.22 0.1775 β”‚ β”‚ 13 β”‚ f(x)= 9.9877 β”‚ 1.14e-07 β”‚ 9.812 0.1754 β”‚ β”‚ 14 β”‚ f(x)= 5.9387 β”‚ 9.68e-08 β”‚ 5.762 0.1771 β”‚ β”‚ 15 β”‚ f(x)= 2.6183 β”‚ 9.23e-08 β”‚ 2.428 0.1904 β”‚ β”‚ 16 β”‚ f(x)= 1.8337 β”‚ 3.87e-08 β”‚ 1.649 0.1851 β”‚ β”‚ 17 β”‚ f(x)= 1.4709 β”‚ 3.93e-08 β”‚ 1.284 0.1873 β”‚ β”‚ 18 β”‚ f(x)= 1.0103 β”‚ 4.16e-08 β”‚ 0.8264 0.184 β”‚ β”‚ 19 β”‚ f(x)= 0.63073 β”‚ 1.61e-08 β”‚ 0.4515 0.1793 β”‚ β”‚ 20 β”‚ f(x)= 0.55607 β”‚ 1.16e-08 β”‚ 0.3829 0.1732 β”‚ β”‚ 21 β”‚ f(x)= 0.48233 β”‚ 1.2e-08 β”‚ 0.314 0.1683 β”‚ β”‚ 22 β”‚ f(x)= 0.3383 β”‚ 1.1e-08 β”‚ 0.1828 0.1555 β”‚ β”‚ 23 β”‚ f(x)= 0.32401 β”‚ 2.36e-08 β”‚ 0.1865 0.1375 β”‚ β”‚ 24 β”‚ f(x)= 0.23509 β”‚ 1.04e-08 β”‚ 0.1012 0.1339 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.03681 Total Core solution elapsed time: 4.06745 Linear solver elapsed time: 3.49467 (86%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 13/31, alpha value: 3.9811e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-31 β”‚ β”‚ 2 β”‚ f(x)= 71317 β”‚ 0.000249 β”‚ 7.132e+04 1.581 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0002986 β”‚ β”‚ 4 β”‚ f(x)= 2641.8 β”‚ 1.75e-05 β”‚ 2641 0.5236 β”‚ β”‚ 5 β”‚ f(x)= 504.84 β”‚ 3.4e-06 β”‚ 504.8 0.03154 β”‚ β”‚ 6 β”‚ f(x)= 740.62 β”‚ 7.47e-06 β”‚ 740.2 0.4182 β”‚ β”‚ 7 β”‚ f(x)= 164 β”‚ 1.4e-06 β”‚ 163.9 0.113 β”‚ β”‚ 8 β”‚ f(x)= 112.02 β”‚ 1.58e-06 β”‚ 111.8 0.2555 β”‚ β”‚ 9 β”‚ f(x)= 75.329 β”‚ 6.95e-07 β”‚ 75.1 0.2244 β”‚ β”‚ 10 β”‚ f(x)= 51.343 β”‚ 4.07e-07 β”‚ 51.1 0.2478 β”‚ β”‚ 11 β”‚ f(x)= 26.736 β”‚ 2.73e-07 β”‚ 26.41 0.33 β”‚ β”‚ 12 β”‚ f(x)= 15.505 β”‚ 1.64e-07 β”‚ 15.16 0.3454 β”‚ β”‚ 13 β”‚ f(x)= 10.129 β”‚ 1.15e-07 β”‚ 9.793 0.3359 β”‚ β”‚ 14 β”‚ f(x)= 6.0385 β”‚ 9.7e-08 β”‚ 5.706 0.3329 β”‚ β”‚ 15 β”‚ f(x)= 2.7172 β”‚ 9.13e-08 β”‚ 2.372 0.345 β”‚ β”‚ 16 β”‚ f(x)= 1.9222 β”‚ 3.89e-08 β”‚ 1.594 0.3282 β”‚ β”‚ 17 β”‚ f(x)= 1.5474 β”‚ 3.95e-08 β”‚ 1.221 0.3262 β”‚ β”‚ 18 β”‚ f(x)= 1.095 β”‚ 4.08e-08 β”‚ 0.7836 0.3114 β”‚ β”‚ 19 β”‚ f(x)= 0.72886 β”‚ 1.74e-08 β”‚ 0.4387 0.2902 β”‚ β”‚ 20 β”‚ f(x)= 0.65102 β”‚ 1.27e-08 β”‚ 0.3776 0.2734 β”‚ β”‚ 21 β”‚ f(x)= 0.5688 β”‚ 1.37e-08 β”‚ 0.3102 0.2586 β”‚ β”‚ 22 β”‚ f(x)= 0.40718 β”‚ 1.27e-08 β”‚ 0.1807 0.2265 β”‚ β”‚ 23 β”‚ f(x)= 0.35477 β”‚ 1.95e-08 β”‚ 0.1576 0.1972 β”‚ β”‚ 24 β”‚ f(x)= 0.28407 β”‚ 9.59e-09 β”‚ 0.09237 0.1917 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037183 Total Core solution elapsed time: 3.84354 Linear solver elapsed time: 3.30409 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 14/31, alpha value: 7.9433e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-30 β”‚ β”‚ 2 β”‚ f(x)= 71318 β”‚ 0.000249 β”‚ 7.132e+04 3.155 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0005957 β”‚ β”‚ 4 β”‚ f(x)= 2632.6 β”‚ 1.75e-05 β”‚ 2632 1.035 β”‚ β”‚ 5 β”‚ f(x)= 502.88 β”‚ 3.39e-06 β”‚ 502.8 0.06289 β”‚ β”‚ 6 β”‚ f(x)= 732.15 β”‚ 7.42e-06 β”‚ 731.3 0.8211 β”‚ β”‚ 7 β”‚ f(x)= 162.48 β”‚ 1.38e-06 β”‚ 162.3 0.2249 β”‚ β”‚ 8 β”‚ f(x)= 111.16 β”‚ 1.55e-06 β”‚ 110.7 0.4996 β”‚ β”‚ 9 β”‚ f(x)= 75.39 β”‚ 6.99e-07 β”‚ 74.95 0.4418 β”‚ β”‚ 10 β”‚ f(x)= 50.528 β”‚ 4e-07 β”‚ 50.04 0.488 β”‚ β”‚ 11 β”‚ f(x)= 26.939 β”‚ 2.73e-07 β”‚ 26.3 0.6385 β”‚ β”‚ 12 β”‚ f(x)= 15.686 β”‚ 1.64e-07 β”‚ 15.03 0.6564 β”‚ β”‚ 13 β”‚ f(x)= 10.347 β”‚ 1.15e-07 β”‚ 9.727 0.6193 β”‚ β”‚ 14 β”‚ f(x)= 6.1591 β”‚ 9.76e-08 β”‚ 5.566 0.593 β”‚ β”‚ 15 β”‚ f(x)= 2.8498 β”‚ 8.9e-08 β”‚ 2.27 0.5799 β”‚ β”‚ 16 β”‚ f(x)= 2.0279 β”‚ 3.93e-08 β”‚ 1.493 0.5346 β”‚ β”‚ 17 β”‚ f(x)= 1.6307 β”‚ 3.96e-08 β”‚ 1.112 0.519 β”‚ β”‚ 18 β”‚ f(x)= 1.1982 β”‚ 3.85e-08 β”‚ 0.7189 0.4792 β”‚ β”‚ 19 β”‚ f(x)= 0.86622 β”‚ 2.08e-08 β”‚ 0.4383 0.4279 β”‚ β”‚ 20 β”‚ f(x)= 0.77055 β”‚ 1.41e-08 β”‚ 0.3755 0.3951 β”‚ β”‚ 21 β”‚ f(x)= 0.6789 β”‚ 1.52e-08 β”‚ 0.3095 0.3694 β”‚ β”‚ 22 β”‚ f(x)= 0.53209 β”‚ 1.29e-08 β”‚ 0.1964 0.3357 β”‚ β”‚ 23 β”‚ f(x)= 0.48606 β”‚ 1.48e-08 β”‚ 0.1726 0.3134 β”‚ β”‚ 24 β”‚ f(x)= 0.45428 β”‚ 7.4e-09 β”‚ 0.1458 0.3085 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.042461 Total Core solution elapsed time: 4.29412 Linear solver elapsed time: 3.65996 (85%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 15/31, alpha value: 1.5849e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-30 β”‚ β”‚ 2 β”‚ f(x)= 71321 β”‚ 0.000249 β”‚ 7.132e+04 6.294 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.001188 β”‚ β”‚ 4 β”‚ f(x)= 2614.6 β”‚ 1.74e-05 β”‚ 2613 2.027 β”‚ β”‚ 5 β”‚ f(x)= 498.99 β”‚ 3.37e-06 β”‚ 498.9 0.1253 β”‚ β”‚ 6 β”‚ f(x)= 715.74 β”‚ 7.3e-06 β”‚ 714.2 1.586 β”‚ β”‚ 7 β”‚ f(x)= 159.59 β”‚ 1.34e-06 β”‚ 159.1 0.4465 β”‚ β”‚ 8 β”‚ f(x)= 109.6 β”‚ 1.51e-06 β”‚ 108.6 0.9585 β”‚ β”‚ 9 β”‚ f(x)= 75.481 β”‚ 7.07e-07 β”‚ 74.62 0.8584 β”‚ β”‚ 10 β”‚ f(x)= 48.7 β”‚ 3.84e-07 β”‚ 47.75 0.9505 β”‚ β”‚ 11 β”‚ f(x)= 27.145 β”‚ 2.73e-07 β”‚ 25.94 1.202 β”‚ β”‚ 12 β”‚ f(x)= 15.936 β”‚ 1.64e-07 β”‚ 14.74 1.191 β”‚ β”‚ 13 β”‚ f(x)= 10.553 β”‚ 1.17e-07 β”‚ 9.487 1.066 β”‚ β”‚ 14 β”‚ f(x)= 6.1427 β”‚ 9.86e-08 β”‚ 5.177 0.9655 β”‚ β”‚ 15 β”‚ f(x)= 2.9664 β”‚ 8.05e-08 β”‚ 2.076 0.8903 β”‚ β”‚ 16 β”‚ f(x)= 2.1124 β”‚ 3.89e-08 β”‚ 1.309 0.8031 β”‚ β”‚ 17 β”‚ f(x)= 1.701 β”‚ 3.68e-08 β”‚ 0.9295 0.7715 β”‚ β”‚ 18 β”‚ f(x)= 1.3505 β”‚ 3.01e-08 β”‚ 0.6506 0.6999 β”‚ β”‚ 19 β”‚ f(x)= 1.1135 β”‚ 2.42e-08 β”‚ 0.4919 0.6217 β”‚ β”‚ 20 β”‚ f(x)= 0.98023 β”‚ 1.54e-08 β”‚ 0.4035 0.5768 β”‚ β”‚ 21 β”‚ f(x)= 0.89005 β”‚ 1.36e-08 β”‚ 0.3359 0.5542 β”‚ β”‚ 22 β”‚ f(x)= 0.80506 β”‚ 1e-08 β”‚ 0.2687 0.5364 β”‚ β”‚ 23 β”‚ f(x)= 0.77753 β”‚ 9.51e-09 β”‚ 0.254 0.5236 β”‚ β”‚ 24 β”‚ f(x)= 0.7725 β”‚ 5.22e-09 β”‚ 0.2529 0.5196 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.038502 Total Core solution elapsed time: 3.81238 Linear solver elapsed time: 3.27686 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 16/31, alpha value: 3.1623e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-30 β”‚ β”‚ 2 β”‚ f(x)= 71328 β”‚ 0.000249 β”‚ 7.132e+04 12.56 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.002371 β”‚ β”‚ 4 β”‚ f(x)= 2579.7 β”‚ 1.72e-05 β”‚ 2576 3.899 β”‚ β”‚ 5 β”‚ f(x)= 491.37 β”‚ 3.34e-06 β”‚ 491.1 0.2491 β”‚ β”‚ 6 β”‚ f(x)= 684.91 β”‚ 7.08e-06 β”‚ 681.9 2.971 β”‚ β”‚ 7 β”‚ f(x)= 154.31 β”‚ 1.26e-06 β”‚ 153.4 0.8809 β”‚ β”‚ 8 β”‚ f(x)= 106.96 β”‚ 1.42e-06 β”‚ 105.2 1.772 β”‚ β”‚ 9 β”‚ f(x)= 75.54 β”‚ 7.22e-07 β”‚ 73.91 1.626 β”‚ β”‚ 10 β”‚ f(x)= 44.378 β”‚ 3.49e-07 β”‚ 42.55 1.826 β”‚ β”‚ 11 β”‚ f(x)= 26.817 β”‚ 2.68e-07 β”‚ 24.66 2.155 β”‚ β”‚ 12 β”‚ f(x)= 16.012 β”‚ 1.64e-07 β”‚ 14.03 1.986 β”‚ β”‚ 13 β”‚ f(x)= 10.337 β”‚ 1.21e-07 β”‚ 8.699 1.638 β”‚ β”‚ 14 β”‚ f(x)= 5.5311 β”‚ 9.32e-08 β”‚ 4.102 1.429 β”‚ β”‚ 15 β”‚ f(x)= 3.1484 β”‚ 5.6e-08 β”‚ 1.806 1.343 β”‚ β”‚ 16 β”‚ f(x)= 2.315 β”‚ 3.11e-08 β”‚ 1.092 1.223 β”‚ β”‚ 17 β”‚ f(x)= 1.8526 β”‚ 2.32e-08 β”‚ 0.751 1.102 β”‚ β”‚ 18 β”‚ f(x)= 1.6139 β”‚ 2.65e-08 β”‚ 0.6366 0.9773 β”‚ β”‚ 19 β”‚ f(x)= 1.4507 β”‚ 1.58e-08 β”‚ 0.5291 0.9216 β”‚ β”‚ 20 β”‚ f(x)= 1.3946 β”‚ 7.97e-09 β”‚ 0.4847 0.9099 β”‚ β”‚ 21 β”‚ f(x)= 1.3627 β”‚ 4.73e-09 β”‚ 0.4615 0.9012 β”‚ β”‚ 22 β”‚ f(x)= 1.3529 β”‚ 2.96e-09 β”‚ 0.4574 0.8955 β”‚ β”‚ 23 β”‚ f(x)= 1.3518 β”‚ 1.53e-09 β”‚ 0.4584 0.8934 β”‚ β”‚ 24 β”‚ f(x)= 1.3503 β”‚ 1.11e-09 β”‚ 0.4562 0.8941 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037432 Total Core solution elapsed time: 3.81684 Linear solver elapsed time: 3.27916 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 17/31, alpha value: 6.3096e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-29 β”‚ β”‚ 2 β”‚ f(x)= 71340 β”‚ 0.000249 β”‚ 7.132e+04 25.06 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.004729 β”‚ β”‚ 4 β”‚ f(x)= 2514.6 β”‚ 1.69e-05 β”‚ 2507 7.231 β”‚ β”‚ 5 β”‚ f(x)= 476.73 β”‚ 3.27e-06 β”‚ 476.2 0.492 β”‚ β”‚ 6 β”‚ f(x)= 630.13 β”‚ 6.69e-06 β”‚ 624.9 5.245 β”‚ β”‚ 7 β”‚ f(x)= 145.64 β”‚ 1.12e-06 β”‚ 143.9 1.711 β”‚ β”‚ 8 β”‚ f(x)= 103.26 β”‚ 1.28e-06 β”‚ 100.2 3.061 β”‚ β”‚ 9 β”‚ f(x)= 75.109 β”‚ 7.54e-07 β”‚ 72.17 2.936 β”‚ β”‚ 10 β”‚ f(x)= 35.538 β”‚ 2.92e-07 β”‚ 32.03 3.504 β”‚ β”‚ 11 β”‚ f(x)= 23.763 β”‚ 2.37e-07 β”‚ 20.43 3.337 β”‚ β”‚ 12 β”‚ f(x)= 12.756 β”‚ 1.5e-07 β”‚ 10.16 2.596 β”‚ β”‚ 13 β”‚ f(x)= 8.4958 β”‚ 1.21e-07 β”‚ 6.236 2.259 β”‚ β”‚ 14 β”‚ f(x)= 4.2447 β”‚ 1.44e-07 β”‚ 2.058 2.186 β”‚ β”‚ 15 β”‚ f(x)= 3.7719 β”‚ 4.92e-08 β”‚ 1.792 1.98 β”‚ β”‚ 16 β”‚ f(x)= 3.5023 β”‚ 4.11e-08 β”‚ 1.557 1.945 β”‚ β”‚ 17 β”‚ f(x)= 2.9667 β”‚ 5.72e-08 β”‚ 1.111 1.856 β”‚ β”‚ 18 β”‚ f(x)= 2.7003 β”‚ 4.19e-08 β”‚ 0.9679 1.732 β”‚ β”‚ 19 β”‚ f(x)= 2.4567 β”‚ 1.29e-08 β”‚ 0.8783 1.578 β”‚ β”‚ 20 β”‚ f(x)= 2.4154 β”‚ 8.32e-09 β”‚ 0.861 1.554 β”‚ β”‚ 21 β”‚ f(x)= 2.3868 β”‚ 5.1e-09 β”‚ 0.8364 1.55 β”‚ β”‚ 22 β”‚ f(x)= 2.3732 β”‚ 2.58e-09 β”‚ 0.8241 1.549 β”‚ β”‚ 23 β”‚ f(x)= 2.368 β”‚ 1.47e-09 β”‚ 0.8177 1.55 β”‚ β”‚ 24 β”‚ f(x)= 2.3671 β”‚ 1.04e-09 β”‚ 0.8168 1.55 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037373 Total Core solution elapsed time: 3.54313 Linear solver elapsed time: 3.05095 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 18/31, alpha value: 1.2589e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-29 β”‚ β”‚ 2 β”‚ f(x)= 71365 β”‚ 0.00025 β”‚ 7.132e+04 50 β”‚ β”‚ 3 β”‚ f(x)= 1194.8 β”‚ 5.01e-06 β”‚ 1195 0.009429 β”‚ β”‚ 4 β”‚ f(x)= 2400.9 β”‚ 1.64e-05 β”‚ 2388 12.48 β”‚ β”‚ 5 β”‚ f(x)= 449.89 β”‚ 3.14e-06 β”‚ 448.9 0.9526 β”‚ β”‚ 6 β”‚ f(x)= 542.72 β”‚ 6.03e-06 β”‚ 534.4 8.318 β”‚ β”‚ 7 β”‚ f(x)= 134.5 β”‚ 9.25e-07 β”‚ 131.3 3.189 β”‚ β”‚ 8 β”‚ f(x)= 99.858 β”‚ 1.09e-06 β”‚ 95.13 4.728 β”‚ β”‚ 9 β”‚ f(x)= 71.497 β”‚ 8.08e-07 β”‚ 66.59 4.908 β”‚ β”‚ 10 β”‚ f(x)= 27.361 β”‚ 2.91e-07 β”‚ 22.58 4.781 β”‚ β”‚ 11 β”‚ f(x)= 18.463 β”‚ 1.81e-07 β”‚ 14.19 4.269 β”‚ β”‚ 12 β”‚ f(x)= 13.458 β”‚ 1.52e-07 β”‚ 9.475 3.983 β”‚ β”‚ 13 β”‚ f(x)= 9.126 β”‚ 1.55e-07 β”‚ 5.443 3.683 β”‚ β”‚ 14 β”‚ f(x)= 6.0482 β”‚ 1.09e-07 β”‚ 2.429 3.619 β”‚ β”‚ 15 β”‚ f(x)= 5.5774 β”‚ 7.11e-08 β”‚ 2.322 3.255 β”‚ β”‚ 16 β”‚ f(x)= 5.1381 β”‚ 5.25e-08 β”‚ 2.029 3.109 β”‚ β”‚ 17 β”‚ f(x)= 4.3403 β”‚ 2.96e-08 β”‚ 1.498 2.842 β”‚ β”‚ 18 β”‚ f(x)= 4.243 β”‚ 1.55e-08 β”‚ 1.539 2.704 β”‚ β”‚ 19 β”‚ f(x)= 4.2032 β”‚ 1.01e-08 β”‚ 1.532 2.671 β”‚ β”‚ 20 β”‚ f(x)= 4.1959 β”‚ 5e-09 β”‚ 1.534 2.662 β”‚ β”‚ 21 β”‚ f(x)= 4.186 β”‚ 3.03e-09 β”‚ 1.526 2.66 β”‚ β”‚ 22 β”‚ f(x)= 4.1745 β”‚ 1.95e-09 β”‚ 1.514 2.661 β”‚ β”‚ 23 β”‚ f(x)= 4.1698 β”‚ 8.56e-10 β”‚ 1.509 2.661 β”‚ β”‚ 24 β”‚ f(x)= 4.1694 β”‚ 7.63e-10 β”‚ 1.508 2.661 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037326 Total Core solution elapsed time: 3.43394 Linear solver elapsed time: 2.94834 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 19/31, alpha value: 2.5119e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-29 β”‚ β”‚ 2 β”‚ f(x)= 71415 β”‚ 0.00025 β”‚ 7.132e+04 99.76 β”‚ β”‚ 3 β”‚ f(x)= 1194.9 β”‚ 5e-06 β”‚ 1195 0.01879 β”‚ β”‚ 4 β”‚ f(x)= 2229.3 β”‚ 1.55e-05 β”‚ 2210 18.88 β”‚ β”‚ 5 β”‚ f(x)= 406.67 β”‚ 2.92e-06 β”‚ 404.9 1.731 β”‚ β”‚ 6 β”‚ f(x)= 428.3 β”‚ 5.09e-06 β”‚ 417.1 11.18 β”‚ β”‚ 7 β”‚ f(x)= 127.62 β”‚ 8.59e-07 β”‚ 122.2 5.376 β”‚ β”‚ 8 β”‚ f(x)= 99.767 β”‚ 9.13e-07 β”‚ 93.47 6.301 β”‚ β”‚ 9 β”‚ f(x)= 50.151 β”‚ 7.36e-07 β”‚ 42.46 7.691 β”‚ β”‚ 10 β”‚ f(x)= 25.942 β”‚ 2.9e-07 β”‚ 19.57 6.376 β”‚ β”‚ 11 β”‚ f(x)= 17.735 β”‚ 1.49e-07 β”‚ 11.3 6.435 β”‚ β”‚ 12 β”‚ f(x)= 14.856 β”‚ 1.54e-07 β”‚ 8.565 6.291 β”‚ β”‚ 13 β”‚ f(x)= 10.305 β”‚ 1.29e-07 β”‚ 4.442 5.863 β”‚ β”‚ 14 β”‚ f(x)= 7.9344 β”‚ 9.54e-08 β”‚ 2.604 5.33 β”‚ β”‚ 15 β”‚ f(x)= 7.5698 β”‚ 8.64e-08 β”‚ 2.521 5.048 β”‚ β”‚ 16 β”‚ f(x)= 7.5498 β”‚ 2.22e-08 β”‚ 2.934 4.616 β”‚ β”‚ 17 β”‚ f(x)= 7.4841 β”‚ 1.98e-08 β”‚ 2.894 4.59 β”‚ β”‚ 18 β”‚ f(x)= 7.4563 β”‚ 1.59e-08 β”‚ 2.958 4.498 β”‚ β”‚ 19 β”‚ f(x)= 7.3577 β”‚ 1.14e-08 β”‚ 2.862 4.496 β”‚ β”‚ 20 β”‚ f(x)= 7.3385 β”‚ 7.56e-09 β”‚ 2.857 4.482 β”‚ β”‚ 21 β”‚ f(x)= 7.3376 β”‚ 2.51e-09 β”‚ 2.855 4.483 β”‚ β”‚ 22 β”‚ f(x)= 7.34 β”‚ 1.37e-09 β”‚ 2.858 4.482 β”‚ β”‚ 23 β”‚ f(x)= 7.3403 β”‚ 2.24e-09 β”‚ 2.858 4.483 β”‚ β”‚ 24 β”‚ f(x)= 7.3399 β”‚ 2.28e-09 β”‚ 2.857 4.483 β”‚ β”‚ 25 β”‚ f(x)= 7.3397 β”‚ 2.31e-09 β”‚ 2.857 4.483 β”‚ β”‚ 26 β”‚ f(x)= 7.3396 β”‚ 2.33e-09 β”‚ 2.857 4.483 β”‚ β”‚ 27 β”‚ f(x)= 7.3396 β”‚ 2.34e-09 β”‚ 2.857 4.483 β”‚ β”‚ 28 β”‚ f(x)= 7.3396 β”‚ 2.35e-09 β”‚ 2.857 4.483 β”‚ β”‚ 29 β”‚ f(x)= 7.3396 β”‚ 2.36e-09 β”‚ 2.857 4.483 β”‚ β”‚ 30 β”‚ f(x)= 7.3395 β”‚ 2.36e-09 β”‚ 2.857 4.483 β”‚ β”‚ 31 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 32 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 33 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 34 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 35 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 36 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 37 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 38 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 39 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 40 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036898 Total Core solution elapsed time: 3.81313 Linear solver elapsed time: 3.23523 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 20/31, alpha value: 5.0119e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-29 β”‚ β”‚ 2 β”‚ f(x)= 71514 β”‚ 0.00025 β”‚ 7.132e+04 199 β”‚ β”‚ 3 β”‚ f(x)= 1195 β”‚ 5e-06 β”‚ 1195 0.03739 β”‚ β”‚ 4 β”‚ f(x)= 2048.3 β”‚ 1.46e-05 β”‚ 2024 24.08 β”‚ β”‚ 5 β”‚ f(x)= 360.35 β”‚ 2.64e-06 β”‚ 357.7 2.687 β”‚ β”‚ 6 β”‚ f(x)= 325.84 β”‚ 4.11e-06 β”‚ 313.1 12.77 β”‚ β”‚ 7 β”‚ f(x)= 119.09 β”‚ 8.06e-07 β”‚ 113.1 6.017 β”‚ β”‚ 8 β”‚ f(x)= 95.44 β”‚ 6.52e-07 β”‚ 88.47 6.972 β”‚ β”‚ 9 β”‚ f(x)= 56.855 β”‚ 8e-07 β”‚ 46.92 9.931 β”‚ β”‚ 10 β”‚ f(x)= 39.071 β”‚ 4.61e-07 β”‚ 29.55 9.516 β”‚ β”‚ 11 β”‚ f(x)= 24.564 β”‚ 1.86e-07 β”‚ 14.58 9.987 β”‚ β”‚ 12 β”‚ f(x)= 21.157 β”‚ 2e-07 β”‚ 11.15 10.01 β”‚ β”‚ 13 β”‚ f(x)= 15.703 β”‚ 1.63e-07 β”‚ 6.414 9.289 β”‚ β”‚ 14 β”‚ f(x)= 13.315 β”‚ 1.76e-07 β”‚ 4.56 8.755 β”‚ β”‚ 15 β”‚ f(x)= 12.983 β”‚ 8.69e-08 β”‚ 5.057 7.927 β”‚ β”‚ 16 β”‚ f(x)= 13.11 β”‚ 2.89e-08 β”‚ 5.509 7.601 β”‚ β”‚ 17 β”‚ f(x)= 12.992 β”‚ 7.42e-08 β”‚ 5.144 7.849 β”‚ β”‚ 18 β”‚ f(x)= 12.988 β”‚ 7.43e-08 β”‚ 5.139 7.849 β”‚ β”‚ 19 β”‚ f(x)= 12.988 β”‚ 7.49e-08 β”‚ 5.136 7.853 β”‚ β”‚ 20 β”‚ f(x)= 12.991 β”‚ 7.79e-08 β”‚ 5.12 7.871 β”‚ β”‚ 21 β”‚ f(x)= 12.991 β”‚ 8.06e-08 β”‚ 5.104 7.887 β”‚ β”‚ 22 β”‚ f(x)= 12.99 β”‚ 8.25e-08 β”‚ 5.091 7.899 β”‚ β”‚ 23 β”‚ f(x)= 12.991 β”‚ 8.38e-08 β”‚ 5.084 7.907 β”‚ β”‚ 24 β”‚ f(x)= 12.99 β”‚ 8.47e-08 β”‚ 5.077 7.913 β”‚ β”‚ 25 β”‚ f(x)= 12.991 β”‚ 8.54e-08 β”‚ 5.074 7.917 β”‚ β”‚ 26 β”‚ f(x)= 12.99 β”‚ 8.58e-08 β”‚ 5.071 7.92 β”‚ β”‚ 27 β”‚ f(x)= 12.99 β”‚ 8.62e-08 β”‚ 5.068 7.922 β”‚ β”‚ 28 β”‚ f(x)= 12.989 β”‚ 8.64e-08 β”‚ 5.066 7.923 β”‚ β”‚ 29 β”‚ f(x)= 12.989 β”‚ 8.65e-08 β”‚ 5.064 7.924 β”‚ β”‚ 30 β”‚ f(x)= 12.988 β”‚ 8.66e-08 β”‚ 5.063 7.925 β”‚ β”‚ 31 β”‚ f(x)= 12.988 β”‚ 8.67e-08 β”‚ 5.063 7.925 β”‚ β”‚ 32 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.062 7.926 β”‚ β”‚ 33 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.062 7.926 β”‚ β”‚ 34 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.061 7.926 β”‚ β”‚ 35 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 36 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 37 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 38 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 39 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 40 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.927 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037252 Total Core solution elapsed time: 3.55621 Linear solver elapsed time: 3.01384 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 21/31, alpha value: 1e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-28 β”‚ β”‚ 2 β”‚ f(x)= 71712 β”‚ 0.000251 β”‚ 7.132e+04 397.2 β”‚ β”‚ 3 β”‚ f(x)= 1195.3 β”‚ 4.99e-06 β”‚ 1195 0.07421 β”‚ β”‚ 4 β”‚ f(x)= 2034.2 β”‚ 1.44e-05 β”‚ 1998 36.28 β”‚ β”‚ 5 β”‚ f(x)= 370.6 β”‚ 2.67e-06 β”‚ 366.8 3.796 β”‚ β”‚ 6 β”‚ f(x)= 313.11 β”‚ 3.94e-06 β”‚ 296.6 16.48 β”‚ β”‚ 7 β”‚ f(x)= 125.45 β”‚ 7.9e-07 β”‚ 117.9 7.531 β”‚ β”‚ 8 β”‚ f(x)= 102.68 β”‚ 6.55e-07 β”‚ 93.8 8.884 β”‚ β”‚ 9 β”‚ f(x)= 58.868 β”‚ 7.4e-07 β”‚ 44.27 14.59 β”‚ β”‚ 10 β”‚ f(x)= 42.858 β”‚ 3.92e-07 β”‚ 28.75 14.11 β”‚ β”‚ 11 β”‚ f(x)= 30.214 β”‚ 2.06e-07 β”‚ 15.55 14.66 β”‚ β”‚ 12 β”‚ f(x)= 27.069 β”‚ 2.27e-07 β”‚ 12.64 14.43 β”‚ β”‚ 13 β”‚ f(x)= 23.067 β”‚ 2.36e-07 β”‚ 8.939 14.13 β”‚ β”‚ 14 β”‚ f(x)= 22.643 β”‚ 1.56e-07 β”‚ 9.7 12.94 β”‚ β”‚ 15 β”‚ f(x)= 22.918 β”‚ 7.35e-08 β”‚ 10.63 12.29 β”‚ β”‚ 16 β”‚ f(x)= 22.676 β”‚ 1.41e-07 β”‚ 9.84 12.84 β”‚ β”‚ 17 β”‚ f(x)= 22.669 β”‚ 1.41e-07 β”‚ 9.832 12.84 β”‚ β”‚ 18 β”‚ f(x)= 22.668 β”‚ 1.42e-07 β”‚ 9.826 12.84 β”‚ β”‚ 19 β”‚ f(x)= 22.671 β”‚ 1.45e-07 β”‚ 9.804 12.87 β”‚ β”‚ 20 β”‚ f(x)= 22.668 β”‚ 1.48e-07 β”‚ 9.778 12.89 β”‚ β”‚ 21 β”‚ f(x)= 22.663 β”‚ 1.51e-07 β”‚ 9.757 12.91 β”‚ β”‚ 22 β”‚ f(x)= 22.663 β”‚ 1.52e-07 β”‚ 9.746 12.92 β”‚ β”‚ 23 β”‚ f(x)= 22.66 β”‚ 1.53e-07 β”‚ 9.736 12.92 β”‚ β”‚ 24 β”‚ f(x)= 22.657 β”‚ 1.54e-07 β”‚ 9.727 12.93 β”‚ β”‚ 25 β”‚ f(x)= 22.655 β”‚ 1.54e-07 β”‚ 9.721 12.93 β”‚ β”‚ 26 β”‚ f(x)= 22.653 β”‚ 1.55e-07 β”‚ 9.716 12.94 β”‚ β”‚ 27 β”‚ f(x)= 22.651 β”‚ 1.55e-07 β”‚ 9.713 12.94 β”‚ β”‚ 28 β”‚ f(x)= 22.65 β”‚ 1.55e-07 β”‚ 9.71 12.94 β”‚ β”‚ 29 β”‚ f(x)= 22.65 β”‚ 1.55e-07 β”‚ 9.709 12.94 β”‚ β”‚ 30 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.707 12.94 β”‚ β”‚ 31 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.707 12.94 β”‚ β”‚ 32 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.706 12.94 β”‚ β”‚ 33 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.706 12.94 β”‚ β”‚ 34 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 35 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 36 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 37 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 38 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 39 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 40 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037863 Total Core solution elapsed time: 3.4201 Linear solver elapsed time: 2.87566 (84%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 22/31, alpha value: 1.9953e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-28 β”‚ β”‚ 2 β”‚ f(x)= 72108 β”‚ 0.000253 β”‚ 7.132e+04 792.4 β”‚ β”‚ 3 β”‚ f(x)= 1195.9 β”‚ 4.97e-06 β”‚ 1196 0.1465 β”‚ β”‚ 4 β”‚ f(x)= 2249.2 β”‚ 1.52e-05 β”‚ 2170 78.89 β”‚ β”‚ 5 β”‚ f(x)= 455.91 β”‚ 3.14e-06 β”‚ 450.1 5.763 β”‚ β”‚ 6 β”‚ f(x)= 537.82 β”‚ 6.68e-06 β”‚ 467.6 70.18 β”‚ β”‚ 7 β”‚ f(x)= 174.46 β”‚ 1.51e-06 β”‚ 160.5 14 β”‚ β”‚ 8 β”‚ f(x)= 144.68 β”‚ 1.36e-06 β”‚ 130.8 13.91 β”‚ β”‚ 9 β”‚ f(x)= 115.64 β”‚ 8.91e-07 β”‚ 102.3 13.33 β”‚ β”‚ 10 β”‚ f(x)= 61.962 β”‚ 4.33e-07 β”‚ 39.9 22.06 β”‚ β”‚ 11 β”‚ f(x)= 53.493 β”‚ 9.28e-07 β”‚ 28.45 25.04 β”‚ β”‚ 12 β”‚ f(x)= 49.873 β”‚ 3.75e-07 β”‚ 28.32 21.56 β”‚ β”‚ 13 β”‚ f(x)= 46.699 β”‚ 2.3e-07 β”‚ 26.23 20.47 β”‚ β”‚ 14 β”‚ f(x)= 43.816 β”‚ 2.46e-07 β”‚ 24.24 19.57 β”‚ β”‚ 15 β”‚ f(x)= 40.609 β”‚ 1.99e-07 β”‚ 21.69 18.92 β”‚ β”‚ 16 β”‚ f(x)= 39.455 β”‚ 4.62e-07 β”‚ 20 19.45 β”‚ β”‚ 17 β”‚ f(x)= 38.82 β”‚ 8.48e-08 β”‚ 20.27 18.55 β”‚ β”‚ 18 β”‚ f(x)= 38.667 β”‚ 5.97e-08 β”‚ 20.08 18.58 β”‚ β”‚ 19 β”‚ f(x)= 38.202 β”‚ 5.57e-08 β”‚ 19.58 18.62 β”‚ β”‚ 20 β”‚ f(x)= 37.955 β”‚ 1.12e-07 β”‚ 19.18 18.77 β”‚ β”‚ 21 β”‚ f(x)= 37.924 β”‚ 2.27e-08 β”‚ 19.24 18.69 β”‚ β”‚ 22 β”‚ f(x)= 37.924 β”‚ 1.12e-08 β”‚ 19.25 18.67 β”‚ β”‚ 23 β”‚ f(x)= 37.924 β”‚ 1.93e-08 β”‚ 19.24 18.68 β”‚ β”‚ 24 β”‚ f(x)= 37.884 β”‚ 8.41e-09 β”‚ 19.18 18.7 β”‚ β”‚ 25 β”‚ f(x)= 37.89 β”‚ 6.51e-09 β”‚ 19.2 18.69 β”‚ β”‚ 26 β”‚ f(x)= 37.883 β”‚ 7.86e-09 β”‚ 19.18 18.7 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037014 Total Core solution elapsed time: 3.46859 Linear solver elapsed time: 2.95439 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 23/31, alpha value: 3.9811e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-28 β”‚ β”‚ 2 β”‚ f(x)= 72896 β”‚ 0.000256 β”‚ 7.132e+04 1581 β”‚ β”‚ 3 β”‚ f(x)= 1197 β”‚ 4.93e-06 β”‚ 1197 0.2863 β”‚ β”‚ 4 β”‚ f(x)= 1854.5 β”‚ 1.38e-05 β”‚ 1744 110.7 β”‚ β”‚ 5 β”‚ f(x)= 363.81 β”‚ 2.86e-06 β”‚ 350.1 13.7 β”‚ β”‚ 6 β”‚ f(x)= 554.86 β”‚ 9.89e-06 β”‚ 387.8 167 β”‚ β”‚ 7 β”‚ f(x)= 223.29 β”‚ 1.96e-06 β”‚ 207.5 15.8 β”‚ β”‚ 8 β”‚ f(x)= 189.12 β”‚ 1.58e-06 β”‚ 172.7 16.37 β”‚ β”‚ 9 β”‚ f(x)= 158.91 β”‚ 1.06e-06 β”‚ 144.4 14.47 β”‚ β”‚ 10 β”‚ f(x)= 100.33 β”‚ 8.39e-07 β”‚ 76.79 23.54 β”‚ β”‚ 11 β”‚ f(x)= 89.996 β”‚ 2.69e-06 β”‚ 43.01 46.99 β”‚ β”‚ 12 β”‚ f(x)= 81.884 β”‚ 5.22e-07 β”‚ 54.14 27.74 β”‚ β”‚ 13 β”‚ f(x)= 80.243 β”‚ 3.75e-07 β”‚ 53.47 26.78 β”‚ β”‚ 14 β”‚ f(x)= 74.268 β”‚ 3.9e-07 β”‚ 48.44 25.83 β”‚ β”‚ 15 β”‚ f(x)= 71.276 β”‚ 5e-07 β”‚ 45.88 25.4 β”‚ β”‚ 16 β”‚ f(x)= 67.8 β”‚ 2.32e-07 β”‚ 42.17 25.63 β”‚ β”‚ 17 β”‚ f(x)= 66.774 β”‚ 1.68e-07 β”‚ 41.44 25.34 β”‚ β”‚ 18 β”‚ f(x)= 65.473 β”‚ 1.77e-07 β”‚ 40.26 25.21 β”‚ β”‚ 19 β”‚ f(x)= 64.258 β”‚ 2.01e-07 β”‚ 38.77 25.49 β”‚ β”‚ 20 β”‚ f(x)= 63.946 β”‚ 7.84e-08 β”‚ 38.49 25.45 β”‚ β”‚ 21 β”‚ f(x)= 63.789 β”‚ 5.39e-08 β”‚ 38.34 25.45 β”‚ β”‚ 22 β”‚ f(x)= 63.627 β”‚ 4.51e-08 β”‚ 38.15 25.48 β”‚ β”‚ 23 β”‚ f(x)= 63.534 β”‚ 9.03e-08 β”‚ 38.06 25.48 β”‚ β”‚ 24 β”‚ f(x)= 63.523 β”‚ 1.4e-08 β”‚ 38.08 25.44 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037308 Total Core solution elapsed time: 3.32063 Linear solver elapsed time: 2.85739 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 24/31, alpha value: 7.9433e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-27 β”‚ β”‚ 2 β”‚ f(x)= 74470 β”‚ 0.000264 β”‚ 7.132e+04 3155 β”‚ β”‚ 3 β”‚ f(x)= 1199.2 β”‚ 4.87e-06 β”‚ 1199 0.5484 β”‚ β”‚ 4 β”‚ f(x)= 774.16 β”‚ 9.13e-06 β”‚ 660 114.1 β”‚ β”‚ 5 β”‚ f(x)= 335.5 β”‚ 8.34e-06 β”‚ 254.7 80.77 β”‚ β”‚ 6 β”‚ f(x)= 270.28 β”‚ 4.66e-06 β”‚ 239.5 30.82 β”‚ β”‚ 7 β”‚ f(x)= 206.2 β”‚ 1.18e-06 β”‚ 188.9 17.28 β”‚ β”‚ 8 β”‚ f(x)= 191.31 β”‚ 1.14e-06 β”‚ 173.2 18.06 β”‚ β”‚ 9 β”‚ f(x)= 160.85 β”‚ 1.43e-06 β”‚ 142.6 18.3 β”‚ β”‚ 10 β”‚ f(x)= 146.16 β”‚ 4.31e-06 β”‚ 99.12 47.04 β”‚ β”‚ 11 β”‚ f(x)= 123.96 β”‚ 7.27e-07 β”‚ 98.56 25.39 β”‚ β”‚ 12 β”‚ f(x)= 120.61 β”‚ 4.9e-07 β”‚ 95.68 24.94 β”‚ β”‚ 13 β”‚ f(x)= 114.64 β”‚ 5.39e-07 β”‚ 88.28 26.36 β”‚ β”‚ 14 β”‚ f(x)= 108.99 β”‚ 1.14e-06 β”‚ 79.71 29.28 β”‚ β”‚ 15 β”‚ f(x)= 106.18 β”‚ 4.61e-07 β”‚ 77.69 28.49 β”‚ β”‚ 16 β”‚ f(x)= 104.33 β”‚ 3.08e-07 β”‚ 75.91 28.42 β”‚ β”‚ 17 β”‚ f(x)= 102.8 β”‚ 2.8e-07 β”‚ 74.24 28.56 β”‚ β”‚ 18 β”‚ f(x)= 100.88 β”‚ 7.13e-07 β”‚ 71.33 29.54 β”‚ β”‚ 19 β”‚ f(x)= 100.39 β”‚ 1.43e-07 β”‚ 71.32 29.06 β”‚ β”‚ 20 β”‚ f(x)= 100.22 β”‚ 9.97e-08 β”‚ 71.18 29.04 β”‚ β”‚ 21 β”‚ f(x)= 99.68 β”‚ 1.09e-07 β”‚ 70.62 29.06 β”‚ β”‚ 22 β”‚ f(x)= 99.264 β”‚ 1.07e-07 β”‚ 70.31 28.95 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037691 Total Core solution elapsed time: 2.97082 Linear solver elapsed time: 2.55635 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 25/31, alpha value: 1.5849e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-27 β”‚ β”‚ 2 β”‚ f(x)= 77610 β”‚ 0.000284 β”‚ 7.132e+04 6294 β”‚ β”‚ 3 β”‚ f(x)= 1203.3 β”‚ 4.8e-06 β”‚ 1202 1.011 β”‚ β”‚ 4 β”‚ f(x)= 328.68 β”‚ 7.4e-06 β”‚ 219 109.7 β”‚ β”‚ 5 β”‚ f(x)= 455.44 β”‚ 2.08e-05 β”‚ 199.6 255.9 β”‚ β”‚ 6 β”‚ f(x)= 286.08 β”‚ 6.46e-06 β”‚ 212.1 74.02 β”‚ β”‚ 7 β”‚ f(x)= 277 β”‚ 2.54e-06 β”‚ 245.8 31.22 β”‚ β”‚ 8 β”‚ f(x)= 237.11 β”‚ 1.81e-06 β”‚ 210.7 26.39 β”‚ β”‚ 9 β”‚ f(x)= 193.38 β”‚ 2.74e-06 β”‚ 169.3 24.07 β”‚ β”‚ 10 β”‚ f(x)= 187.1 β”‚ 5.3e-06 β”‚ 148.9 38.24 β”‚ β”‚ 11 β”‚ f(x)= 174.07 β”‚ 1.18e-06 β”‚ 154.4 19.67 β”‚ β”‚ 12 β”‚ f(x)= 170.97 β”‚ 8.01e-07 β”‚ 152.1 18.82 β”‚ β”‚ 13 β”‚ f(x)= 163.81 β”‚ 8.7e-07 β”‚ 144.1 19.71 β”‚ β”‚ 14 β”‚ f(x)= 157.24 β”‚ 1.22e-06 β”‚ 135.7 21.52 β”‚ β”‚ 15 β”‚ f(x)= 148.14 β”‚ 7.94e-07 β”‚ 123.2 24.92 β”‚ β”‚ 16 β”‚ f(x)= 143.35 β”‚ 5.68e-07 β”‚ 117.6 25.77 β”‚ β”‚ 17 β”‚ f(x)= 140.07 β”‚ 1.07e-06 β”‚ 112.6 27.46 β”‚ β”‚ 18 β”‚ f(x)= 139.75 β”‚ 2.69e-07 β”‚ 113.4 26.3 β”‚ β”‚ 19 β”‚ f(x)= 139.78 β”‚ 1.65e-07 β”‚ 113.7 26.09 β”‚ β”‚ 20 β”‚ f(x)= 139.77 β”‚ 2.48e-07 β”‚ 113.5 26.26 β”‚ β”‚ 21 β”‚ f(x)= 139.76 β”‚ 2.49e-07 β”‚ 113.5 26.26 β”‚ β”‚ 22 β”‚ f(x)= 139.76 β”‚ 2.5e-07 β”‚ 113.5 26.26 β”‚ β”‚ 23 β”‚ f(x)= 139.76 β”‚ 2.54e-07 β”‚ 113.5 26.27 β”‚ β”‚ 24 β”‚ f(x)= 139.77 β”‚ 2.59e-07 β”‚ 113.5 26.28 β”‚ β”‚ 25 β”‚ f(x)= 139.76 β”‚ 2.62e-07 β”‚ 113.5 26.28 β”‚ β”‚ 26 β”‚ f(x)= 139.76 β”‚ 2.64e-07 β”‚ 113.5 26.29 β”‚ β”‚ 27 β”‚ f(x)= 139.76 β”‚ 2.66e-07 β”‚ 113.5 26.29 β”‚ β”‚ 28 β”‚ f(x)= 139.76 β”‚ 2.67e-07 β”‚ 113.5 26.29 β”‚ β”‚ 29 β”‚ f(x)= 139.76 β”‚ 2.68e-07 β”‚ 113.5 26.29 β”‚ β”‚ 30 β”‚ f(x)= 139.76 β”‚ 2.68e-07 β”‚ 113.5 26.29 β”‚ β”‚ 31 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 32 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 33 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 34 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 35 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 36 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 37 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 38 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 39 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 40 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037566 Total Core solution elapsed time: 3.2622 Linear solver elapsed time: 2.7512 (84%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 26/31, alpha value: 3.1623e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-27 β”‚ β”‚ 2 β”‚ f(x)= 83874 β”‚ 0.000334 β”‚ 7.132e+04 1.256e+04 β”‚ β”‚ 3 β”‚ f(x)= 1210.5 β”‚ 4.8e-06 β”‚ 1209 1.738 β”‚ β”‚ 4 β”‚ f(x)= 506.75 β”‚ 8.9e-06 β”‚ 419.4 87.32 β”‚ β”‚ 5 β”‚ f(x)= 446.42 β”‚ 2.49e-05 β”‚ 213.4 233 β”‚ β”‚ 6 β”‚ f(x)= 316.22 β”‚ 4.77e-06 β”‚ 254.4 61.87 β”‚ β”‚ 7 β”‚ f(x)= 299.43 β”‚ 3.25e-06 β”‚ 247.9 51.51 β”‚ β”‚ 8 β”‚ f(x)= 256.47 β”‚ 4.06e-06 β”‚ 217.7 38.8 β”‚ β”‚ 9 β”‚ f(x)= 228.37 β”‚ 3.74e-06 β”‚ 200.6 27.73 β”‚ β”‚ 10 β”‚ f(x)= 232.34 β”‚ 1.11e-05 β”‚ 178.1 54.26 β”‚ β”‚ 11 β”‚ f(x)= 214.17 β”‚ 5.78e-06 β”‚ 185.7 28.42 β”‚ β”‚ 12 β”‚ f(x)= 202.2 β”‚ 1.36e-06 β”‚ 182.1 20.1 β”‚ β”‚ 13 β”‚ f(x)= 200.37 β”‚ 1.11e-06 β”‚ 181.6 18.78 β”‚ β”‚ 14 β”‚ f(x)= 196.33 β”‚ 1.34e-06 β”‚ 178.7 17.63 β”‚ β”‚ 15 β”‚ f(x)= 190.45 β”‚ 2.51e-06 β”‚ 172.3 18.18 β”‚ β”‚ 16 β”‚ f(x)= 184.77 β”‚ 1.4e-06 β”‚ 167.3 17.49 β”‚ β”‚ 17 β”‚ f(x)= 178.36 β”‚ 9.27e-07 β”‚ 160.4 17.98 β”‚ β”‚ 18 β”‚ f(x)= 175.09 β”‚ 1.26e-06 β”‚ 156.2 18.94 β”‚ β”‚ 19 β”‚ f(x)= 173.88 β”‚ 4.34e-07 β”‚ 155 18.85 β”‚ β”‚ 20 β”‚ f(x)= 173.88 β”‚ 2.46e-07 β”‚ 155.3 18.57 β”‚ β”‚ 21 β”‚ f(x)= 173.87 β”‚ 3.74e-07 β”‚ 155.1 18.77 β”‚ β”‚ 22 β”‚ f(x)= 173.74 β”‚ 1.92e-07 β”‚ 155.3 18.43 β”‚ β”‚ 23 β”‚ f(x)= 173.49 β”‚ 1.73e-07 β”‚ 154.9 18.56 β”‚ β”‚ 24 β”‚ f(x)= 173.28 β”‚ 7.69e-08 β”‚ 154.6 18.63 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036804 Total Core solution elapsed time: 2.957 Linear solver elapsed time: 2.52696 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 27/31, alpha value: 6.3096e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-26 β”‚ β”‚ 2 β”‚ f(x)= 96374 β”‚ 0.000463 β”‚ 7.132e+04 2.506e+04 β”‚ β”‚ 3 β”‚ f(x)= 1220.7 β”‚ 5.17e-06 β”‚ 1218 2.747 β”‚ β”‚ 4 β”‚ f(x)= 803.79 β”‚ 1.05e-05 β”‚ 746.4 57.41 β”‚ β”‚ 5 β”‚ f(x)= 486.58 β”‚ 2.52e-05 β”‚ 311.5 175 β”‚ β”‚ 6 β”‚ f(x)= 404.52 β”‚ 7.55e-06 β”‚ 309.5 95.03 β”‚ β”‚ 7 β”‚ f(x)= 391.83 β”‚ 5.62e-06 β”‚ 320.6 71.25 β”‚ β”‚ 8 β”‚ f(x)= 334.87 β”‚ 6.84e-06 β”‚ 275.2 59.65 β”‚ β”‚ 9 β”‚ f(x)= 267.47 β”‚ 6.44e-06 β”‚ 228.2 39.3 β”‚ β”‚ 10 β”‚ f(x)= 292.34 β”‚ 2.26e-05 β”‚ 197.7 94.63 β”‚ β”‚ 11 β”‚ f(x)= 249.38 β”‚ 9.38e-06 β”‚ 210.2 39.18 β”‚ β”‚ 12 β”‚ f(x)= 230.49 β”‚ 2.77e-06 β”‚ 202.3 28.19 β”‚ β”‚ 13 β”‚ f(x)= 227.02 β”‚ 1.92e-06 β”‚ 202.1 24.94 β”‚ β”‚ 14 β”‚ f(x)= 223.02 β”‚ 2.08e-06 β”‚ 200.6 22.4 β”‚ β”‚ 15 β”‚ f(x)= 217.02 β”‚ 3.26e-06 β”‚ 198 19.04 β”‚ β”‚ 16 β”‚ f(x)= 209.3 β”‚ 2.61e-06 β”‚ 193.8 15.52 β”‚ β”‚ 17 β”‚ f(x)= 204 β”‚ 1.75e-06 β”‚ 191.3 12.74 β”‚ β”‚ 18 β”‚ f(x)= 200.27 β”‚ 2.3e-06 β”‚ 188.7 11.54 β”‚ β”‚ 19 β”‚ f(x)= 199.22 β”‚ 1.16e-06 β”‚ 188.3 10.88 β”‚ β”‚ 20 β”‚ f(x)= 199.04 β”‚ 4.76e-07 β”‚ 188.4 10.68 β”‚ β”‚ 21 β”‚ f(x)= 198.83 β”‚ 2.83e-07 β”‚ 188.2 10.66 β”‚ β”‚ 22 β”‚ f(x)= 198.42 β”‚ 2.33e-07 β”‚ 187.7 10.73 β”‚ β”‚ 23 β”‚ f(x)= 198.15 β”‚ 3.63e-07 β”‚ 187.3 10.88 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037375 Total Core solution elapsed time: 2.84641 Linear solver elapsed time: 2.42851 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 28/31, alpha value: 1.2589e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-26 β”‚ β”‚ 2 β”‚ f(x)=1.2131e+05 β”‚ 0.000758 β”‚ 7.132e+04 5e+04 β”‚ β”‚ 3 β”‚ f(x)= 1223.5 β”‚ 7.24e-06 β”‚ 1218 5.481 β”‚ β”‚ 4 β”‚ f(x)= 1022.5 β”‚ 1.16e-05 β”‚ 989.3 33.28 β”‚ β”‚ 5 β”‚ f(x)= 683.56 β”‚ 2.96e-05 β”‚ 536.1 147.5 β”‚ β”‚ 6 β”‚ f(x)= 577.58 β”‚ 1.1e-05 β”‚ 469.9 107.7 β”‚ β”‚ 7 β”‚ f(x)= 549.24 β”‚ 9.18e-06 β”‚ 463.2 86.04 β”‚ β”‚ 8 β”‚ f(x)= 458.84 β”‚ 1.14e-05 β”‚ 382.5 76.32 β”‚ β”‚ 9 β”‚ f(x)= 338.95 β”‚ 1.22e-05 β”‚ 275.2 63.75 β”‚ β”‚ 10 β”‚ f(x)= 353.31 β”‚ 3.76e-05 β”‚ 207.9 145.4 β”‚ β”‚ 11 β”‚ f(x)= 296.66 β”‚ 1.92e-05 β”‚ 226.2 70.47 β”‚ β”‚ 12 β”‚ f(x)= 264.73 β”‚ 5.2e-06 β”‚ 219.1 45.63 β”‚ β”‚ 13 β”‚ f(x)= 259.17 β”‚ 3.62e-06 β”‚ 219.4 39.79 β”‚ β”‚ 14 β”‚ f(x)= 252.24 β”‚ 3.87e-06 β”‚ 217.1 35.1 β”‚ β”‚ 15 β”‚ f(x)= 242.18 β”‚ 5.91e-06 β”‚ 214 28.19 β”‚ β”‚ 16 β”‚ f(x)= 230.92 β”‚ 5.22e-06 β”‚ 210.7 20.25 β”‚ β”‚ 17 β”‚ f(x)= 222.89 β”‚ 3.51e-06 β”‚ 209.5 13.35 β”‚ β”‚ 18 β”‚ f(x)= 216.54 β”‚ 4.2e-06 β”‚ 208.9 7.667 β”‚ β”‚ 19 β”‚ f(x)= 215.18 β”‚ 3.7e-06 β”‚ 208.4 6.772 β”‚ β”‚ 20 β”‚ f(x)= 214.25 β”‚ 1.05e-06 β”‚ 208.3 5.937 β”‚ β”‚ 21 β”‚ f(x)= 214.02 β”‚ 6.32e-07 β”‚ 208.2 5.769 β”‚ β”‚ 22 β”‚ f(x)= 213.56 β”‚ 5.64e-07 β”‚ 207.9 5.675 β”‚ β”‚ 23 β”‚ f(x)= 213.21 β”‚ 5.86e-07 β”‚ 207.5 5.733 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036969 Total Core solution elapsed time: 2.98078 Linear solver elapsed time: 2.54451 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 29/31, alpha value: 2.5119e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-26 β”‚ β”‚ 2 β”‚ f(x)=1.7108e+05 β”‚ 0.00139 β”‚ 7.132e+04 9.976e+04 β”‚ β”‚ 3 β”‚ f(x)= 1228.9 β”‚ 1.33e-05 β”‚ 1218 10.94 β”‚ β”‚ 4 β”‚ f(x)= 1151.7 β”‚ 1.21e-05 β”‚ 1134 17.99 β”‚ β”‚ 5 β”‚ f(x)= 889.9 β”‚ 1.67e-05 β”‚ 813.2 76.67 β”‚ β”‚ 6 β”‚ f(x)= 732.72 β”‚ 3.17e-05 β”‚ 597.5 135.2 β”‚ β”‚ 7 β”‚ f(x)= 723.66 β”‚ 1.49e-05 β”‚ 637.5 86.12 β”‚ β”‚ 8 β”‚ f(x)= 667.62 β”‚ 1.09e-05 β”‚ 600 67.66 β”‚ β”‚ 9 β”‚ f(x)= 538.85 β”‚ 1.7e-05 β”‚ 469.4 69.44 β”‚ β”‚ 10 β”‚ f(x)= 384.08 β”‚ 1.72e-05 β”‚ 314.4 69.7 β”‚ β”‚ 11 β”‚ f(x)= 436.76 β”‚ 6.77e-05 β”‚ 213.5 223.2 β”‚ β”‚ 12 β”‚ f(x)= 336.07 β”‚ 3.16e-05 β”‚ 241.6 94.42 β”‚ β”‚ 13 β”‚ f(x)= 300.11 β”‚ 7.93e-06 β”‚ 236.9 63.19 β”‚ β”‚ 14 β”‚ f(x)= 295.1 β”‚ 5.57e-06 β”‚ 238.9 56.17 β”‚ β”‚ 15 β”‚ f(x)= 284.12 β”‚ 7.87e-06 β”‚ 235.9 48.22 β”‚ β”‚ 16 β”‚ f(x)= 264.81 β”‚ 1.15e-05 β”‚ 228.6 36.18 β”‚ β”‚ 17 β”‚ f(x)= 246.59 β”‚ 1.85e-05 β”‚ 219.9 26.72 β”‚ β”‚ 18 β”‚ f(x)= 231.07 β”‚ 6.7e-06 β”‚ 219.5 11.56 β”‚ β”‚ 19 β”‚ f(x)= 225.58 β”‚ 3.84e-06 β”‚ 219.1 6.499 β”‚ β”‚ 20 β”‚ f(x)= 223.17 β”‚ 2.84e-06 β”‚ 218.8 4.384 β”‚ β”‚ 21 β”‚ f(x)= 222.47 β”‚ 4.84e-06 β”‚ 218.5 3.95 β”‚ β”‚ 22 β”‚ f(x)= 221.59 β”‚ 1.02e-06 β”‚ 218.4 3.145 β”‚ β”‚ 23 β”‚ f(x)= 221.47 β”‚ 6.48e-07 β”‚ 218.4 3.085 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.043542 Total Core solution elapsed time: 3.08321 Linear solver elapsed time: 2.60904 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 30/31, alpha value: 5.0119e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-26 β”‚ β”‚ 2 β”‚ f(x)=2.7036e+05 β”‚ 0.00266 β”‚ 7.132e+04 1.99e+05 β”‚ β”‚ 3 β”‚ f(x)= 1239.8 β”‚ 2.67e-05 β”‚ 1218 21.82 β”‚ β”‚ 4 β”‚ f(x)= 1221.8 β”‚ 1.25e-05 β”‚ 1212 9.37 β”‚ β”‚ 5 β”‚ f(x)= 1178 β”‚ 9.84e-06 β”‚ 1167 11.12 β”‚ β”‚ 6 β”‚ f(x)= 1095.7 β”‚ 1.57e-05 β”‚ 1069 26.73 β”‚ β”‚ 7 β”‚ f(x)= 964.08 β”‚ 2.33e-05 β”‚ 909.3 54.77 β”‚ β”‚ 8 β”‚ f(x)= 763.52 β”‚ 2.36e-05 β”‚ 658.8 104.8 β”‚ β”‚ 9 β”‚ f(x)= 633.85 β”‚ 1.83e-05 β”‚ 524.7 109.1 β”‚ β”‚ 10 β”‚ f(x)= 463.52 β”‚ 2.55e-05 β”‚ 353.7 109.8 β”‚ β”‚ 11 β”‚ f(x)= 416.05 β”‚ 2.96e-05 β”‚ 310.7 105.4 β”‚ β”‚ 12 β”‚ f(x)= 405.46 β”‚ 1.38e-05 β”‚ 322.3 83.13 β”‚ β”‚ 13 β”‚ f(x)= 387.64 β”‚ 1.11e-05 β”‚ 314.5 73.1 β”‚ β”‚ 14 β”‚ f(x)= 360.09 β”‚ 1.57e-05 β”‚ 291.3 68.81 β”‚ β”‚ 15 β”‚ f(x)= 309.28 β”‚ 2.15e-05 β”‚ 253.5 55.77 β”‚ β”‚ 16 β”‚ f(x)= 273.31 β”‚ 3.89e-05 β”‚ 223.8 49.52 β”‚ β”‚ 17 β”‚ f(x)= 243.49 β”‚ 1.36e-05 β”‚ 224.4 19.05 β”‚ β”‚ 18 β”‚ f(x)= 233.58 β”‚ 7.35e-06 β”‚ 225.2 8.414 β”‚ β”‚ 19 β”‚ f(x)= 229.03 β”‚ 5.67e-06 β”‚ 224.8 4.212 β”‚ β”‚ 20 β”‚ f(x)= 227.95 β”‚ 9.66e-06 β”‚ 224.7 3.283 β”‚ β”‚ 21 β”‚ f(x)= 226.31 β”‚ 2.19e-06 β”‚ 224.6 1.735 β”‚ β”‚ 22 β”‚ f(x)= 226.05 β”‚ 1.31e-06 β”‚ 224.5 1.583 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037071 Total Core solution elapsed time: 2.75956 Linear solver elapsed time: 2.35359 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 31/31, alpha value: 1e-11 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-25 β”‚ β”‚ 2 β”‚ f(x)=4.6847e+05 β”‚ 0.00522 β”‚ 7.132e+04 3.972e+05 β”‚ β”‚ 3 β”‚ f(x)= 1261.5 β”‚ 5.43e-05 β”‚ 1218 43.54 β”‚ β”‚ 4 β”‚ f(x)= 1256.5 β”‚ 1.26e-05 β”‚ 1252 4.789 β”‚ β”‚ 5 β”‚ f(x)= 1248.1 β”‚ 8.31e-06 β”‚ 1244 3.961 β”‚ β”‚ 6 β”‚ f(x)= 1180.1 β”‚ 1.62e-05 β”‚ 1165 15.5 β”‚ β”‚ 7 β”‚ f(x)= 1118.9 β”‚ 2.31e-05 β”‚ 1089 29.63 β”‚ β”‚ 8 β”‚ f(x)= 1022.4 β”‚ 2.22e-05 β”‚ 971.7 50.7 β”‚ β”‚ 9 β”‚ f(x)= 810.58 β”‚ 5.55e-05 β”‚ 690.7 119.9 β”‚ β”‚ 10 β”‚ f(x)= 699.58 β”‚ 2.22e-05 β”‚ 592.2 107.4 β”‚ β”‚ 11 β”‚ f(x)= 636.15 β”‚ 1.96e-05 β”‚ 543.5 92.63 β”‚ β”‚ 12 β”‚ f(x)= 566.63 β”‚ 2.29e-05 β”‚ 473.1 93.57 β”‚ β”‚ 13 β”‚ f(x)= 484.12 β”‚ 5.7e-05 β”‚ 356 128.1 β”‚ β”‚ 14 β”‚ f(x)= 459.3 β”‚ 2.05e-05 β”‚ 368.1 91.21 β”‚ β”‚ 15 β”‚ f(x)= 430.26 β”‚ 1.96e-05 β”‚ 353.5 76.79 β”‚ β”‚ 16 β”‚ f(x)= 352.38 β”‚ 3.2e-05 β”‚ 294.1 58.27 β”‚ β”‚ 17 β”‚ f(x)= 271.51 β”‚ 3.78e-05 β”‚ 240.9 30.61 β”‚ β”‚ 18 β”‚ f(x)= 319.35 β”‚ 9.28e-05 β”‚ 243.6 75.75 β”‚ β”‚ 19 β”‚ f(x)= 248.24 β”‚ 3.35e-05 β”‚ 229.5 18.74 β”‚ β”‚ 20 β”‚ f(x)= 233.89 β”‚ 1.12e-05 β”‚ 228.4 5.526 β”‚ β”‚ 21 β”‚ f(x)= 230.82 β”‚ 5.51e-06 β”‚ 228 2.773 β”‚ β”‚ 22 β”‚ f(x)= 229.56 β”‚ 5.42e-06 β”‚ 227.8 1.782 β”‚ β”‚ 23 β”‚ f(x)= 228.6 β”‚ 7.33e-06 β”‚ 227.4 1.24 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.041952 Total Core solution elapsed time: 2.94858 Linear solver elapsed time: 2.5295 (86%) Total elapsed time: 0 hrs 0 min 2 sec INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.779e-31 β”‚ β”‚ 2 β”‚ f(x)= 71317 β”‚ 0.000249 β”‚ 7.132e+04 1.589 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0003 β”‚ β”‚ 4 β”‚ f(x)= 2641.8 β”‚ 1.75e-05 β”‚ 2641 0.526 β”‚ β”‚ 5 β”‚ f(x)= 504.83 β”‚ 3.4e-06 β”‚ 504.8 0.03169 β”‚ β”‚ 6 β”‚ f(x)= 740.58 β”‚ 7.47e-06 β”‚ 740.2 0.4202 β”‚ β”‚ 7 β”‚ f(x)= 163.99 β”‚ 1.4e-06 β”‚ 163.9 0.1135 β”‚ β”‚ 8 β”‚ f(x)= 112.02 β”‚ 1.58e-06 β”‚ 111.8 0.2567 β”‚ β”‚ 9 β”‚ f(x)= 75.329 β”‚ 6.95e-07 β”‚ 75.1 0.2255 β”‚ β”‚ 10 β”‚ f(x)= 51.339 β”‚ 4.07e-07 β”‚ 51.09 0.249 β”‚ β”‚ 11 β”‚ f(x)= 26.737 β”‚ 2.73e-07 β”‚ 26.41 0.3316 β”‚ β”‚ 12 β”‚ f(x)= 15.506 β”‚ 1.64e-07 β”‚ 15.16 0.347 β”‚ β”‚ 13 β”‚ f(x)= 10.13 β”‚ 1.15e-07 β”‚ 9.793 0.3374 β”‚ β”‚ 14 β”‚ f(x)= 6.0393 β”‚ 9.7e-08 β”‚ 5.705 0.3343 β”‚ β”‚ 15 β”‚ f(x)= 2.7181 β”‚ 9.13e-08 β”‚ 2.372 0.3463 β”‚ β”‚ 16 β”‚ f(x)= 1.9229 β”‚ 3.89e-08 β”‚ 1.594 0.3294 β”‚ β”‚ 17 β”‚ f(x)= 1.548 β”‚ 3.95e-08 β”‚ 1.221 0.3274 β”‚ β”‚ 18 β”‚ f(x)= 1.0957 β”‚ 4.08e-08 β”‚ 0.7833 0.3124 β”‚ β”‚ 19 β”‚ f(x)= 0.72964 β”‚ 1.74e-08 β”‚ 0.4386 0.291 β”‚ β”‚ 20 β”‚ f(x)= 0.65174 β”‚ 1.27e-08 β”‚ 0.3776 0.2742 β”‚ β”‚ 21 β”‚ f(x)= 0.56945 β”‚ 1.37e-08 β”‚ 0.3102 0.2592 β”‚ β”‚ 22 β”‚ f(x)= 0.40776 β”‚ 1.27e-08 β”‚ 0.1807 0.227 β”‚ β”‚ 23 β”‚ f(x)= 0.35508 β”‚ 1.94e-08 β”‚ 0.1573 0.1977 β”‚ β”‚ 24 β”‚ f(x)= 0.28474 β”‚ 9.57e-09 β”‚ 0.09248 0.1923 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.03782 Total Core solution elapsed time: 3.90613 Linear solver elapsed time: 3.35679 (86%) Total elapsed time: 0 hrs 0 min 3 sec SUCCESS Testing example: Mesh < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded 2024-07-30 22:05:29.832 MATLAB[98874:144882398] XType: com.apple.fonts is not accessible. 2024-07-30 22:05:29.832 MATLAB[98874:144882398] XType: XTFontStaticRegistry is enabled. 2024-07-30 22:05:30.010 MATLAB[98874:144882398] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:05:30.010 MATLAB[98874:144882398] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 22:05:30.011 MATLAB[98874:144882398] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:05:30.015 MATLAB[98874:144882398] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:05:30.015 MATLAB[98874:144882398] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. Construction of a mesh from a given geometry Construction of a mesh from a given geometry Construction of a mesh from a given geometry Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 2567 Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 1572 Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 4616 SUCCESS Testing example: Pig < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 2085 2024-07-30 22:05:49.405 MATLAB[98956:144882686] XType: com.apple.fonts is not accessible. 2024-07-30 22:05:49.405 MATLAB[98956:144882686] XType: XTFontStaticRegistry is enabled. 2024-07-30 22:05:49.583 MATLAB[98956:144882686] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:05:49.583 MATLAB[98956:144882686] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 22:05:49.584 MATLAB[98956:144882686] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:05:49.588 MATLAB[98956:144882686] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:05:49.588 MATLAB[98956:144882686] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. Loading SeaRISE data from NetCDF Interpolating surface and ice base Constructing thickness Interpolating temperatures Loading velocities data from NetCDF Set observed velocities Set Pressure Construct ice rheological properties Interpolating surface mass balance Set geothermal heat flux Construct basal friction parameters Set boundary conditions boundary conditions for stressbalance model: spc set as observed velocities no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 10690 β”‚ 51.3 β”‚ 1475 9214 3.271e-11β”‚ β”‚ 2 β”‚ f(x)= 3165.2 β”‚ 6.8 β”‚ 68.4 3097 5.082e-10β”‚ β”‚ 3 β”‚ f(x)= 2709.5 β”‚ 5.43 β”‚ 51.99 2658 6.208e-10β”‚ β”‚ 4 β”‚ f(x)= 1527 β”‚ 2.59 β”‚ 19.93 1507 1.367e-09β”‚ β”‚ 5 β”‚ f(x)= 948.76 β”‚ 1.43 β”‚ 8.873 939.9 2.507e-09β”‚ β”‚ 6 β”‚ f(x)= 538.96 β”‚ 0.704 β”‚ 3.362 535.6 4.587e-09β”‚ β”‚ 7 β”‚ f(x)= 320.85 β”‚ 0.352 β”‚ 1.654 319.2 7.502e-09β”‚ β”‚ 8 β”‚ f(x)= 198.61 β”‚ 0.154 β”‚ 1.284 197.3 1.178e-08β”‚ β”‚ 9 β”‚ f(x)= 157.58 β”‚ 0.319 β”‚ 1.336 156.2 1.612e-08β”‚ β”‚ 10 β”‚ f(x)= 134.5 β”‚ 0.116 β”‚ 1.478 133 1.929e-08β”‚ β”‚ 11 β”‚ f(x)= 129.99 β”‚ 0.0779 β”‚ 1.476 128.5 1.983e-08β”‚ β”‚ 12 β”‚ f(x)= 122.97 β”‚ 0.0862 β”‚ 1.467 121.5 2.173e-08β”‚ β”‚ 13 β”‚ f(x)= 119.93 β”‚ 0.0654 β”‚ 1.461 118.5 2.225e-08β”‚ β”‚ 14 β”‚ f(x)= 114.49 β”‚ 0.0559 β”‚ 1.408 113.1 2.332e-08β”‚ β”‚ 15 β”‚ f(x)= 111.94 β”‚ 0.0419 β”‚ 1.394 110.5 2.418e-08β”‚ β”‚ 16 β”‚ f(x)= 110.08 β”‚ 0.0324 β”‚ 1.399 108.7 2.511e-08β”‚ β”‚ 17 β”‚ f(x)= 106.57 β”‚ 0.0347 β”‚ 1.392 105.2 2.754e-08β”‚ β”‚ 18 β”‚ f(x)= 104.78 β”‚ 0.0645 β”‚ 1.351 103.4 3.038e-08β”‚ β”‚ 19 β”‚ f(x)= 103.26 β”‚ 0.0712 β”‚ 1.319 101.9 3.056e-08β”‚ β”‚ 20 β”‚ f(x)= 103.49 β”‚ 0.0697 β”‚ 1.293 102.2 3.191e-08β”‚ β”‚ 21 β”‚ f(x)= 102.85 β”‚ 0.0361 β”‚ 1.296 101.6 3.106e-08β”‚ β”‚ 22 β”‚ f(x)= 102.51 β”‚ 0.0854 β”‚ 1.293 101.2 3.086e-08β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.100159 Total Core solution elapsed time: 5.51419 Linear solver elapsed time: 3.48825 (63%) Total elapsed time: 0 hrs 0 min 5 sec Extruding mesh Using HO Ice Flow Model uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.106637 Total Core solution elapsed time: 1.90988 Linear solver elapsed time: 1.13675 (60%) Total elapsed time: 0 hrs 0 min 2 sec SUCCESS Testing example: PigSensitivity < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.055683 Total Core solution elapsed time: 8.59369 Linear solver elapsed time: 5.03801 (59%) Total elapsed time: 0 hrs 0 min 8 sec 2024-07-30 22:06:29.089 MATLAB[99102:144883395] XType: com.apple.fonts is not accessible. 2024-07-30 22:06:29.089 MATLAB[99102:144883395] XType: XTFontStaticRegistry is enabled. 2024-07-30 22:06:29.268 MATLAB[99102:144883395] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:06:29.268 MATLAB[99102:144883395] CoreText note: Set a breakpoint on CTFontLogSystemFontNameRequest to debug. 2024-07-30 22:06:29.269 MATLAB[99102:144883395] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:06:29.273 MATLAB[99102:144883395] CoreText note: Client requested name ".SFNS-Regular", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. 2024-07-30 22:06:29.273 MATLAB[99102:144883395] CoreText note: Client requested name ".SFNS-Bold", it will get Times-Roman rather than the intended font. All system UI font access should be through proper APIs such as CTFontCreateUIFontForLanguage() or +[NSFont systemFontOfSize:]. uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.057056 Total Core solution elapsed time: 8.60895 Linear solver elapsed time: 5.0917 (59%) Total elapsed time: 0 hrs 0 min 8 sec NOTE: using observed velocities to create constraints along new boundary boundary conditions for stressbalance model: spc set as observed velocities uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.058886 Total Core solution elapsed time: 8.66589 Linear solver elapsed time: 5.15633 (60%) Total elapsed time: 0 hrs 0 min 8 sec uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.062329 Total Core solution elapsed time: 8.56677 Linear solver elapsed time: 5.07955 (59%) Total elapsed time: 0 hrs 0 min 8 sec SUCCESS Testing example: SquareIceShelf < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag initial velocity creating flow law parameter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.037094 Total Core solution elapsed time: 0.216352 Linear solver elapsed time: 0.189335 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster SUCCESS Not implemented yet! +++ Removing old junit reports from: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog/results +++ Running case: Example-AMR +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Coarse mesh Construction of a mesh from a given geometry Step 2: Parameterization boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found Step 3: Solve! checking model consistency marshalling file mismip.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: iteration 1/500 time [yr]: 1.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 2/500 time [yr]: 2.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 3/500 time [yr]: 3.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 4/500 time [yr]: 4.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 5/500 time [yr]: 5.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 6/500 time [yr]: 6.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 7/500 time [yr]: 7.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 8/500 time [yr]: 8.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 9/500 time [yr]: 9.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 10/500 time [yr]: 10.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 11/500 time [yr]: 11.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 12/500 time [yr]: 12.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 13/500 time [yr]: 13.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 14/500 time [yr]: 14.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 15/500 time [yr]: 15.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 16/500 time [yr]: 16.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 17/500 time [yr]: 17.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 18/500 time [yr]: 18.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 19/500 time [yr]: 19.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 20/500 time [yr]: 20.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 21/500 time [yr]: 21.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 22/500 time [yr]: 22.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 23/500 time [yr]: 23.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 24/500 time [yr]: 24.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 25/500 time [yr]: 25.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 26/500 time [yr]: 26.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 27/500 time [yr]: 27.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 28/500 time [yr]: 28.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 29/500 time [yr]: 29.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 30/500 time [yr]: 30.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 31/500 time [yr]: 31.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 32/500 time [yr]: 32.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 33/500 time [yr]: 33.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 34/500 time [yr]: 34.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 35/500 time [yr]: 35.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 36/500 time [yr]: 36.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 37/500 time [yr]: 37.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 38/500 time [yr]: 38.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 39/500 time [yr]: 39.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 40/500 time [yr]: 40.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 41/500 time [yr]: 41.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 42/500 time [yr]: 42.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 43/500 time [yr]: 43.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 44/500 time [yr]: 44.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 45/500 time [yr]: 45.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 46/500 time [yr]: 46.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 47/500 time [yr]: 47.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 48/500 time [yr]: 48.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 49/500 time [yr]: 49.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 50/500 time [yr]: 50.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 51/500 time [yr]: 51.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 52/500 time [yr]: 52.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 53/500 time [yr]: 53.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 54/500 time [yr]: 54.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 55/500 time [yr]: 55.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 56/500 time [yr]: 56.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 57/500 time [yr]: 57.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 58/500 time [yr]: 58.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 59/500 time [yr]: 59.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 60/500 time [yr]: 60.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 61/500 time [yr]: 61.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 62/500 time [yr]: 62.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 63/500 time [yr]: 63.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 64/500 time [yr]: 64.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 65/500 time [yr]: 65.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 66/500 time [yr]: 66.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 67/500 time [yr]: 67.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 68/500 time [yr]: 68.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 69/500 time [yr]: 69.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 70/500 time [yr]: 70.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 71/500 time [yr]: 71.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 72/500 time [yr]: 72.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 73/500 time [yr]: 73.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 74/500 time [yr]: 74.00 (time step: 1.00) computing smb computing new velocity 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computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 82/500 time [yr]: 82.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 83/500 time [yr]: 83.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 84/500 time [yr]: 84.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 85/500 time [yr]: 85.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 86/500 time [yr]: 86.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 87/500 time [yr]: 87.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 88/500 time [yr]: 88.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 89/500 time [yr]: 89.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 90/500 time [yr]: 90.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 91/500 time [yr]: 91.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new 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computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 106/500 time [yr]: 106.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 107/500 time [yr]: 107.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 108/500 time [yr]: 108.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module 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balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 113/500 time [yr]: 113.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 114/500 time [yr]: 114.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 115/500 time [yr]: 115.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 116/500 time [yr]: 116.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 117/500 time [yr]: 117.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 118/500 time [yr]: 118.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 119/500 time [yr]: 119.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 120/500 time [yr]: 120.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 121/500 time [yr]: 121.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 122/500 time [yr]: 122.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating 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computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 127/500 time [yr]: 127.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 128/500 time [yr]: 128.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 129/500 time [yr]: 129.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position 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computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 137/500 time [yr]: 137.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 138/500 time [yr]: 138.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 139/500 time [yr]: 139.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 140/500 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mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 144/500 time [yr]: 144.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 145/500 time [yr]: 145.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 146/500 time [yr]: 146.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 151/500 time [yr]: 151.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 152/500 time [yr]: 152.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 153/500 time [yr]: 153.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions 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velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 158/500 time [yr]: 158.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 159/500 time [yr]: 159.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 160/500 time [yr]: 160.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 175/500 time [yr]: 175.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 176/500 time [yr]: 176.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 177/500 time [yr]: 177.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 206/500 time [yr]: 206.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 207/500 time [yr]: 207.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 208/500 time [yr]: 208.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 237/500 time [yr]: 237.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 238/500 time [yr]: 238.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 239/500 time [yr]: 239.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 268/500 time [yr]: 268.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 269/500 time [yr]: 269.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 270/500 time [yr]: 270.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 299/500 time [yr]: 299.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 300/500 time [yr]: 300.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 301/500 time [yr]: 301.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 330/500 time [yr]: 330.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 331/500 time [yr]: 331.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 332/500 time [yr]: 332.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 361/500 time [yr]: 361.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 362/500 time [yr]: 362.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 363/500 time [yr]: 363.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 423/500 time [yr]: 423.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 424/500 time [yr]: 424.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 425/500 time [yr]: 425.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 461/500 time [yr]: 461.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 462/500 time [yr]: 462.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 463/500 time [yr]: 463.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions 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new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 499/500 time [yr]: 499.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 500/500 time [yr]: 500.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results write lock file: FemModel initialization elapsed time: 0.063201 Total Core solution elapsed time: 182.062 Linear solver elapsed time: 56.1064 (31%) Total elapsed time: 0 hrs 3 min 2 sec loading results from cluster [Warning: Directory already exists.] [> In AMRexportVTK (line 17) In runme (line 68)] SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-AMR +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Coarse mesh Construction of a mesh from a given geometry Step 2: Parameterization boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found Step 3: Solve! checking model consistency marshalling file mismip.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: iteration 1/500 time [yr]: 1.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 2/500 time [yr]: 2.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 3/500 time [yr]: 3.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 4/500 time [yr]: 4.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 5/500 time [yr]: 5.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 6/500 time [yr]: 6.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 7/500 time [yr]: 7.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 8/500 time [yr]: 8.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 9/500 time [yr]: 9.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 10/500 time [yr]: 10.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 11/500 time [yr]: 11.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 12/500 time [yr]: 12.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 13/500 time [yr]: 13.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 14/500 time [yr]: 14.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 15/500 time [yr]: 15.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 16/500 time [yr]: 16.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 17/500 time [yr]: 17.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 18/500 time [yr]: 18.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 19/500 time [yr]: 19.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 20/500 time [yr]: 20.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 21/500 time [yr]: 21.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 22/500 time [yr]: 22.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 23/500 time [yr]: 23.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 24/500 time [yr]: 24.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 25/500 time [yr]: 25.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 26/500 time [yr]: 26.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 27/500 time [yr]: 27.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 28/500 time [yr]: 28.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 29/500 time [yr]: 29.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 30/500 time [yr]: 30.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 31/500 time [yr]: 31.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 32/500 time [yr]: 32.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 33/500 time [yr]: 33.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 34/500 time [yr]: 34.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 35/500 time [yr]: 35.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 36/500 time [yr]: 36.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 37/500 time [yr]: 37.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 38/500 time [yr]: 38.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 39/500 time [yr]: 39.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 40/500 time [yr]: 40.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 41/500 time [yr]: 41.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 42/500 time [yr]: 42.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 43/500 time [yr]: 43.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 44/500 time [yr]: 44.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 45/500 time [yr]: 45.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 46/500 time [yr]: 46.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 47/500 time [yr]: 47.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 48/500 time [yr]: 48.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 49/500 time [yr]: 49.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 50/500 time [yr]: 50.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 51/500 time [yr]: 51.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 52/500 time [yr]: 52.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 53/500 time [yr]: 53.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 54/500 time [yr]: 54.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 55/500 time [yr]: 55.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 56/500 time [yr]: 56.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 57/500 time [yr]: 57.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 58/500 time [yr]: 58.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 59/500 time [yr]: 59.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 60/500 time [yr]: 60.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 61/500 time [yr]: 61.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 62/500 time [yr]: 62.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 63/500 time [yr]: 63.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 64/500 time [yr]: 64.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 65/500 time [yr]: 65.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 66/500 time [yr]: 66.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 67/500 time [yr]: 67.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 68/500 time [yr]: 68.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 69/500 time [yr]: 69.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 70/500 time [yr]: 70.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 71/500 time [yr]: 71.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 72/500 time [yr]: 72.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 73/500 time [yr]: 73.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 74/500 time [yr]: 74.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 75/500 time [yr]: 75.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 76/500 time [yr]: 76.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 77/500 time [yr]: 77.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 78/500 time [yr]: 78.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 79/500 time [yr]: 79.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 80/500 time [yr]: 80.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 81/500 time [yr]: 81.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 82/500 time [yr]: 82.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 83/500 time [yr]: 83.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 84/500 time [yr]: 84.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position 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computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 89/500 time [yr]: 89.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 90/500 time [yr]: 90.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 91/500 time [yr]: 91.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 92/500 time [yr]: 92.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 93/500 time [yr]: 93.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 94/500 time [yr]: 94.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 95/500 time [yr]: 95.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 96/500 time [yr]: 96.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 97/500 time [yr]: 97.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 98/500 time [yr]: 98.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new 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computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 106/500 time [yr]: 106.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 107/500 time [yr]: 107.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 108/500 time [yr]: 108.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 109/500 time [yr]: 109.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 110/500 time [yr]: 110.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 111/500 time [yr]: 111.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 112/500 time [yr]: 112.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 113/500 time [yr]: 113.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 114/500 time [yr]: 114.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 115/500 time [yr]: 115.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 120/500 time [yr]: 120.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 121/500 time [yr]: 121.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 122/500 time [yr]: 122.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating 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computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 127/500 time [yr]: 127.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 128/500 time [yr]: 128.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 129/500 time [yr]: 129.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position 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computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 137/500 time [yr]: 137.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 138/500 time [yr]: 138.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 139/500 time [yr]: 139.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 140/500 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mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 144/500 time [yr]: 144.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 145/500 time [yr]: 145.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 146/500 time [yr]: 146.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 175/500 time [yr]: 175.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 176/500 time [yr]: 176.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 177/500 time [yr]: 177.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 206/500 time [yr]: 206.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 207/500 time [yr]: 207.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 208/500 time [yr]: 208.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 292/500 time [yr]: 292.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 293/500 time [yr]: 293.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 294/500 time [yr]: 294.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 299/500 time [yr]: 299.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 300/500 time [yr]: 300.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 301/500 time [yr]: 301.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 306/500 time [yr]: 306.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 307/500 time [yr]: 307.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 308/500 time [yr]: 308.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions 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line position updating vertices positions refining mesh call adjust base and thickness module iteration 316/500 time [yr]: 316.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 317/500 time [yr]: 317.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 318/500 time [yr]: 318.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 319/500 time [yr]: 319.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 320/500 time [yr]: 320.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 321/500 time [yr]: 321.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 322/500 time [yr]: 322.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 323/500 time [yr]: 323.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 324/500 time [yr]: 324.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 325/500 time [yr]: 325.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module 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transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 330/500 time [yr]: 330.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 331/500 time [yr]: 331.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 332/500 time [yr]: 332.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 337/500 time [yr]: 337.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 338/500 time [yr]: 338.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 339/500 time [yr]: 339.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions 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line position updating vertices positions refining mesh call adjust base and thickness module iteration 347/500 time [yr]: 347.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 348/500 time [yr]: 348.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 349/500 time [yr]: 349.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 350/500 time [yr]: 350.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 351/500 time [yr]: 351.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 352/500 time [yr]: 352.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 353/500 time [yr]: 353.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 354/500 time [yr]: 354.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 355/500 time [yr]: 355.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 356/500 time [yr]: 356.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module 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transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 361/500 time [yr]: 361.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 362/500 time [yr]: 362.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 363/500 time [yr]: 363.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 368/500 time [yr]: 368.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 369/500 time [yr]: 369.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 370/500 time [yr]: 370.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions 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balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 392/500 time [yr]: 392.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 393/500 time [yr]: 393.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 394/500 time [yr]: 394.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh 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computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 406/500 time [yr]: 406.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 407/500 time [yr]: 407.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 408/500 time [yr]: 408.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 409/500 time [yr]: 409.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 410/500 time [yr]: 410.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 411/500 time [yr]: 411.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 412/500 time [yr]: 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mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 423/500 time [yr]: 423.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 424/500 time [yr]: 424.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 425/500 time [yr]: 425.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 426/500 time [yr]: 426.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 427/500 time [yr]: 427.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 428/500 time [yr]: 428.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 429/500 time [yr]: 429.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 430/500 time [yr]: 430.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 431/500 time [yr]: 431.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 432/500 time [yr]: 432.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 433/500 time [yr]: 433.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 434/500 time [yr]: 434.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 435/500 time [yr]: 435.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 436/500 time [yr]: 436.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 437/500 time [yr]: 437.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 438/500 time [yr]: 438.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 439/500 time [yr]: 439.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 440/500 time [yr]: 440.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 441/500 time [yr]: 441.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 442/500 time [yr]: 442.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 443/500 time [yr]: 443.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 444/500 time [yr]: 444.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 445/500 time [yr]: 445.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 446/500 time [yr]: 446.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 447/500 time [yr]: 447.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 448/500 time [yr]: 448.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 449/500 time [yr]: 449.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 450/500 time [yr]: 450.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 451/500 time [yr]: 451.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 452/500 time [yr]: 452.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 453/500 time [yr]: 453.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 454/500 time [yr]: 454.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 455/500 time [yr]: 455.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 456/500 time [yr]: 456.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 457/500 time [yr]: 457.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 458/500 time [yr]: 458.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 459/500 time [yr]: 459.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 460/500 time [yr]: 460.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 461/500 time [yr]: 461.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 462/500 time [yr]: 462.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 463/500 time [yr]: 463.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions 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velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 468/500 time [yr]: 468.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 469/500 time [yr]: 469.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 470/500 time [yr]: 470.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results refining mesh call adjust base and thickness module iteration 471/500 time [yr]: 471.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 472/500 time [yr]: 472.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 473/500 time [yr]: 473.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 474/500 time [yr]: 474.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 475/500 time [yr]: 475.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 476/500 time [yr]: 476.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 477/500 time [yr]: 477.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing 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iteration 481/500 time [yr]: 481.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 482/500 time [yr]: 482.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 483/500 time [yr]: 483.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 484/500 time [yr]: 484.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 485/500 time [yr]: 485.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 486/500 time [yr]: 486.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 487/500 time [yr]: 487.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and 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computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 492/500 time [yr]: 492.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 493/500 time [yr]: 493.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 494/500 time [yr]: 494.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 495/500 time [yr]: 495.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 496/500 time [yr]: 496.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 497/500 time [yr]: 497.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 498/500 time [yr]: 498.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 499/500 time [yr]: 499.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions refining mesh call adjust base and thickness module iteration 500/500 time [yr]: 500.00 (time step: 1.00) computing smb computing new velocity computing basal mass balance computing mass transport call computational core computing new grounding line position updating vertices positions saving temporary results write lock file: FemModel initialization elapsed time: 0.063201 Total Core solution elapsed time: 182.062 Linear solver elapsed time: 56.1064 (31%) Total elapsed time: 0 hrs 3 min 2 sec loading results from cluster [Warning: Directory already exists.] [> In AMRexportVTK (line 17) In runme (line 68)] SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-EsaGRACE +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Global mesh creation Info : Running 'gmsh -2 sphere.geo' [Gmsh 4.12.2-git-6a36f0e, 1 node, max. 1 thread] Info : Started on Tue Jul 30 21:46:06 2024 Info : Reading 'sphere.geo'... Info : Done reading 'sphere.geo' Info : Meshing 1D... Info : [ 0%] Meshing curve 1 (Circle) Info : [ 10%] Meshing curve 2 (Circle) Info : [ 20%] Meshing curve 3 (Circle) Info : [ 30%] Meshing curve 4 (Circle) Info : [ 40%] Meshing curve 5 (Circle) Info : [ 50%] Meshing curve 6 (Circle) Info : [ 50%] Meshing curve 7 (Circle) Info : [ 60%] Meshing curve 8 (Circle) Info : [ 70%] Meshing curve 9 (Circle) Info : [ 80%] Meshing curve 10 (Circle) Info : [ 90%] Meshing curve 11 (Circle) Info : [100%] Meshing curve 12 (Circle) Info : Done meshing 1D (Wall 0.00228873s, CPU 0.001929s) Info : Meshing 2D... Info : [ 0%] Meshing surface 14 (Surface, MeshAdapt) Info : [ 20%] Meshing surface 16 (Surface, MeshAdapt) Info : [ 30%] Meshing surface 18 (Surface, MeshAdapt) Info : [ 40%] Meshing surface 20 (Surface, MeshAdapt) Info : [ 50%] Meshing surface 22 (Surface, MeshAdapt) Info : [ 70%] Meshing surface 24 (Surface, MeshAdapt) Info : [ 80%] Meshing surface 26 (Surface, MeshAdapt) Info : [ 90%] Meshing surface 28 (Surface, MeshAdapt) Info : Done meshing 2D (Wall 21.7466s, CPU 21.6615s) Info : 7669 nodes 15747 elements Info : Writing 'sphere.msh'... Info : Done writing 'sphere.msh' Info : Stopped on Tue Jul 30 21:46:28 2024 (From start: Wall 21.829s, CPU 21.7461s) gmtmask: num vertices 7668 gmtmask: done Step 2: Define loads in meters of ice height equivalent 1 of 1 months done! Step 3: Parameterization Step 4: Solve Esa solver checking model consistency marshalling file EsaGRACE.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) starting model processor creating datasets for analysis EsaAnalysis updating elements and materials for control parameters updating elements and materials for uncertainty quantification creating output definitions done with model processor Processing finite element model of analysis EsaAnalysis: toolkits Options set for analysis: EsaAnalysis configuring element and loads Configuring elements... Configuring loads... Configuring materials... Configuring inputs... detecting active vertices resolving node constraints creating nodal degrees of freedom Renumbering degrees of freedom call computational core: computing elastic adjustment toolkits Options set for analysis: EsaAnalysis computing elastic geodetic core write lock file: FemModel initialization elapsed time: 0.159279 Total Core solution elapsed time: 7.24701 Linear solver elapsed time: 0 (0%) Total elapsed time: 0 hrs 0 min 7 sec WARNING! There are options you set that were not used! WARNING! could be spelling mistake, etc! There are 7 unused database options. They are: Option left: name:-ksp_type value: preonly source: code Option left: name:-mat_mumps_icntl_14 value: 120 source: code Option left: name:-mat_mumps_icntl_28 value: 2 source: code Option left: name:-mat_mumps_icntl_29 value: 2 source: code Option left: name:-mat_type value: mpiaij source: code Option left: name:-pc_factor_mat_solver_type value: mumps source: code Option left: name:-pc_type value: lu source: code loading results from cluster Step 5: Plot solutions SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-EsaGRACE +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Global mesh creation Info : Running 'gmsh -2 sphere.geo' [Gmsh 4.12.2-git-6a36f0e, 1 node, max. 1 thread] Info : Started on Tue Jul 30 21:46:06 2024 Info : Reading 'sphere.geo'... Info : Done reading 'sphere.geo' Info : Meshing 1D... Info : [ 0%] Meshing curve 1 (Circle) Info : [ 10%] Meshing curve 2 (Circle) Info : [ 20%] Meshing curve 3 (Circle) Info : [ 30%] Meshing curve 4 (Circle) Info : [ 40%] Meshing curve 5 (Circle) Info : [ 50%] Meshing curve 6 (Circle) Info : [ 50%] Meshing curve 7 (Circle) Info : [ 60%] Meshing curve 8 (Circle) Info : [ 70%] Meshing curve 9 (Circle) Info : [ 80%] Meshing curve 10 (Circle) Info : [ 90%] Meshing curve 11 (Circle) Info : [100%] Meshing curve 12 (Circle) Info : Done meshing 1D (Wall 0.00228873s, CPU 0.001929s) Info : Meshing 2D... Info : [ 0%] Meshing surface 14 (Surface, MeshAdapt) Info : [ 20%] Meshing surface 16 (Surface, MeshAdapt) Info : [ 30%] Meshing surface 18 (Surface, MeshAdapt) Info : [ 40%] Meshing surface 20 (Surface, MeshAdapt) Info : [ 50%] Meshing surface 22 (Surface, MeshAdapt) Info : [ 70%] Meshing surface 24 (Surface, MeshAdapt) Info : [ 80%] Meshing surface 26 (Surface, MeshAdapt) Info : [ 90%] Meshing surface 28 (Surface, MeshAdapt) Info : Done meshing 2D (Wall 21.7466s, CPU 21.6615s) Info : 7669 nodes 15747 elements Info : Writing 'sphere.msh'... Info : Done writing 'sphere.msh' Info : Stopped on Tue Jul 30 21:46:28 2024 (From start: Wall 21.829s, CPU 21.7461s) gmtmask: num vertices 7668 gmtmask: done Step 2: Define loads in meters of ice height equivalent 1 of 1 months done! Step 3: Parameterization Step 4: Solve Esa solver checking model consistency marshalling file EsaGRACE.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) starting model processor creating datasets for analysis EsaAnalysis updating elements and materials for control parameters updating elements and materials for uncertainty quantification creating output definitions done with model processor Processing finite element model of analysis EsaAnalysis: toolkits Options set for analysis: EsaAnalysis configuring element and loads Configuring elements... Configuring loads... Configuring materials... Configuring inputs... detecting active vertices resolving node constraints creating nodal degrees of freedom Renumbering degrees of freedom call computational core: computing elastic adjustment toolkits Options set for analysis: EsaAnalysis computing elastic geodetic core write lock file: FemModel initialization elapsed time: 0.159279 Total Core solution elapsed time: 7.24701 Linear solver elapsed time: 0 (0%) Total elapsed time: 0 hrs 0 min 7 sec WARNING! There are options you set that were not used! WARNING! could be spelling mistake, etc! There are 7 unused database options. They are: Option left: name:-ksp_type value: preonly source: code Option left: name:-mat_mumps_icntl_14 value: 120 source: code Option left: name:-mat_mumps_icntl_28 value: 2 source: code Option left: name:-mat_mumps_icntl_29 value: 2 source: code Option left: name:-mat_type value: mpiaij source: code Option left: name:-pc_factor_mat_solver_type value: mumps source: code Option left: name:-pc_type value: lu source: code loading results from cluster Step 5: Plot solutions SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-EsaWahr +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Step 2: Anisotropic mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 4207 Step 3: Define loads Step 4: Parameterization Step 5: Solve Esa solver checking model consistency marshalling file EsaWahr.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) starting model processor creating datasets for analysis EsaAnalysis updating elements and materials for control parameters updating elements and materials for uncertainty quantification creating output definitions done with model processor Processing finite element model of analysis EsaAnalysis: toolkits Options set for analysis: EsaAnalysis configuring element and loads Configuring elements... Configuring loads... Configuring materials... Configuring inputs... detecting active vertices resolving node constraints creating nodal degrees of freedom Renumbering degrees of freedom call computational core: computing elastic adjustment toolkits Options set for analysis: EsaAnalysis computing elastic geodetic core write lock file: FemModel initialization elapsed time: 0.122485 Total Core solution elapsed time: 0.56347 Linear solver elapsed time: 0 (0%) Total elapsed time: 0 hrs 0 min 0 sec WARNING! There are options you set that were not used! WARNING! could be spelling mistake, etc! There are 7 unused database options. They are: Option left: name:-ksp_type value: preonly source: code Option left: name:-mat_mumps_icntl_14 value: 120 source: code Option left: name:-mat_mumps_icntl_28 value: 2 source: code Option left: name:-mat_mumps_icntl_29 value: 2 source: code Option left: name:-mat_type value: mpiaij source: code Option left: name:-pc_factor_mat_solver_type value: mumps source: code Option left: name:-pc_type value: lu source: code loading results from cluster Step 6: Plot solutions Step 7: Compare results against Wahr semi-analytic solutions SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-EsaWahr +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Step 2: Anisotropic mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 4207 Step 3: Define loads Step 4: Parameterization Step 5: Solve Esa solver checking model consistency marshalling file EsaWahr.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) starting model processor creating datasets for analysis EsaAnalysis updating elements and materials for control parameters updating elements and materials for uncertainty quantification creating output definitions done with model processor Processing finite element model of analysis EsaAnalysis: toolkits Options set for analysis: EsaAnalysis configuring element and loads Configuring elements... Configuring loads... Configuring materials... Configuring inputs... detecting active vertices resolving node constraints creating nodal degrees of freedom Renumbering degrees of freedom call computational core: computing elastic adjustment toolkits Options set for analysis: EsaAnalysis computing elastic geodetic core write lock file: FemModel initialization elapsed time: 0.122485 Total Core solution elapsed time: 0.56347 Linear solver elapsed time: 0 (0%) Total elapsed time: 0 hrs 0 min 0 sec WARNING! There are options you set that were not used! WARNING! could be spelling mistake, etc! There are 7 unused database options. They are: Option left: name:-ksp_type value: preonly source: code Option left: name:-mat_mumps_icntl_14 value: 120 source: code Option left: name:-mat_mumps_icntl_28 value: 2 source: code Option left: name:-mat_mumps_icntl_29 value: 2 source: code Option left: name:-mat_type value: mpiaij source: code Option left: name:-pc_factor_mat_solver_type value: mumps source: code Option left: name:-pc_type value: lu source: code loading results from cluster Step 6: Plot solutions Step 7: Compare results against Wahr semi-analytic solutions SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Greenland +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 6345 Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating surface and bedrock Constructing thickness Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions Set geothermal heat flux Set Pressure Single point constraints Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 59172.79 | 7092.887 52079.9 6.085212e-32 x = 1 | f(x) = 50954.87 | 3600.244 47354.58 0.04587451 ====================== step 2/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 50953.45 | 3598.809 47354.6 0.04587451 x = 1 | f(x) = 44978.74 | 2137.679 42840.82 0.2370654 ====================== step 3/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 44987.02 | 2146.197 42840.58 0.2370654 x = 1 | f(x) = 44425.8 | 2044.873 42380.66 0.2722667 ====================== step 4/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 44432.36 | 2051.851 42380.24 0.2722667 x = 1 | f(x) = 42775.97 | 1747.394 41028.16 0.4148691 ====================== step 5/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 42783.98 | 1756.726 41026.84 0.4148691 x = 1 | f(x) = 41876.1 | 1659.336 40216.23 0.5302616 ====================== step 6/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 41885.98 | 1670.347 40215.1 0.5302616 x = 1 | f(x) = 40869.39 | 1561.173 39307.52 0.6932322 ====================== step 7/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 40870.91 | 1563.273 39306.95 0.6932322 x = 1 | f(x) = 39697.76 | 1338.256 38358.58 0.9236775 ====================== step 8/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39697.43 | 1338.655 38357.85 0.9236775 x = 1 | f(x) = 39040.22 | 1208.675 37830.47 1.071791 ====================== step 9/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39039.49 | 1208.558 37829.86 1.071791 x = 1 | f(x) = 38556.09 | 1126.764 37428.13 1.191478 ====================== step 10/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38552.98 | 1124.507 37427.28 1.191478 x = 1 | f(x) = 38121.56 | 1092.495 37027.74 1.3288 ====================== step 11/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38122.77 | 1094.958 37026.49 1.3288 x = 1 | f(x) = 37729.41 | 1149.628 36578.29 1.493932 ====================== step 12/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37740.46 | 1159.142 36579.82 1.493932 x = 1 | f(x) = 37487.92 | 1087.186 36399.14 1.592633 x = 0.381966 | f(x) = 37611.19 | 1112.303 36497.36 1.529775 x = 0.618034 | f(x) = 37561.1 | 1101.089 36458.46 1.55338 x = 0.763932 | f(x) = 37530.94 | 1093.798 36435.58 1.568476 x = 0.854102 | f(x) = 37512.65 | 1089.499 36421.58 1.577683 x = 0.90983 | f(x) = 37501.45 | 1086.979 36412.88 1.583344 ====================== step 13/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37484.86 | 1084.592 36398.67 1.592633 x = 1 | f(x) = 37022.46 | 1018.285 36002.41 1.768007 ====================== step 14/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37030.9 | 1026.085 36003.05 1.768007 x = 1 | f(x) = 36814.89 | 1058.135 35754.9 1.859438 x = 0.381966 | f(x) = 36898.13 | 989.5907 35906.74 1.799676 x = 0.618034 | f(x) = 36853.98 | 1003.884 35848.28 1.821225 x = 0.763932 | f(x) = 36838.62 | 1025.038 35811.75 1.835325 x = 0.937069 | f(x) = 36824.08 | 1052.478 35769.75 1.852853 x = 0.870937 | f(x) = 36839.21 | 1051.966 35785.4 1.846056 ====================== step 15/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36824.8 | 1068.389 35754.55 1.859438 x = 1 | f(x) = 36559.07 | 954.0377 35603.09 1.936544 x = 0.381966 | f(x) = 36711.5 | 1017.403 35692.21 1.887487 x = 0.618034 | f(x) = 36653.71 | 995.7569 35656.05 1.905392 x = 0.763932 | f(x) = 36614.76 | 978.0481 35634.8 1.916939 x = 0.854102 | f(x) = 36589.85 | 965.9689 35621.95 1.92432 x = 0.90983 | f(x) = 36574.06 | 958.1749 35613.95 1.928974 ====================== step 16/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36552.27 | 948.6767 35601.65 1.936544 x = 1 | f(x) = 36368.74 | 909.4905 35457.24 2.009954 x = 0.381966 | f(x) = 36450.66 | 912.2196 35536.48 1.964688 x = 0.618034 | f(x) = 36415.28 | 905.8741 35507.42 1.981913 x = 0.763932 | f(x) = 36394.68 | 904.2792 35488.41 1.992565 x = 0.854102 | f(x) = 36384.31 | 906.0028 35476.31 1.999281 x = 0.90983 | f(x) = 36379.73 | 908.9319 35468.79 2.003357 ====================== step 17/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36373.34 | 914.7542 35456.58 2.009954 x = 1 | f(x) = 36229.12 | 957.6674 35269.34 2.111313 x = 0.381966 | f(x) = 36289.06 | 905.1848 35381.82 2.046875 x = 0.618034 | f(x) = 36257.86 | 916.5034 35339.28 2.070593 x = 0.763932 | f(x) = 36247.49 | 932.6872 35312.72 2.085785 x = 0.913021 | f(x) = 36239.38 | 951.6387 35285.64 2.101794 x = 0.856074 | f(x) = 36249.62 | 951.977 35295.55 2.095621 ====================== step 18/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36238.23 | 966.1893 35269.93 2.111313 x = 1 | f(x) = 36005.81 | 893.306 35110.31 2.18899 x = 0.381966 | f(x) = 36142.54 | 929.6447 35210.76 2.139784 x = 0.618034 | f(x) = 36093.23 | 916.1558 35174.92 2.158128 x = 0.763932 | f(x) = 36058.58 | 905.5225 35150.89 2.16975 x = 0.854102 | f(x) = 36036.9 | 898.7214 35136 2.177043 x = 0.90983 | f(x) = 36023.73 | 894.6151 35126.93 2.18159 ====================== step 19/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36005.22 | 890.2107 35112.82 2.18899 x = 1 | f(x) = 35868.42 | 869.9581 34996.18 2.287732 x = 0.381966 | f(x) = 35911.39 | 860.1821 35048.98 2.225541 x = 0.618034 | f(x) = 35893.04 | 858.0691 35032.72 2.249067 x = 0.763932 | f(x) = 35881.94 | 859.7353 35019.94 2.263658 x = 0.854102 | f(x) = 35877.04 | 863.763 35011.01 2.272799 x = 0.90983 | f(x) = 35875.47 | 868.0771 35005.11 2.278502 ====================== step 20/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35873.35 | 875.6681 34995.4 2.287732 x = 1 | f(x) = 35723.35 | 910.5513 34810.43 2.374027 x = 0.381966 | f(x) = 35789.66 | 860.5594 34926.79 2.319061 x = 0.618034 | f(x) = 35757.04 | 868.789 34885.91 2.339232 x = 0.763932 | f(x) = 35744.03 | 883.7317 34857.95 2.352231 x = 0.854102 | f(x) = 35739.94 | 897.5494 34840.03 2.360435 x = 0.930997 | f(x) = 35737.52 | 910.28 34824.87 2.367548 ====================== step 21/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35735.84 | 922.2347 34811.23 2.374027 x = 1 | f(x) = 35602.51 | 870.7784 34729.3 2.423398 x = 0.381966 | f(x) = 35668.82 | 880.0971 34786.33 2.391628 x = 0.618034 | f(x) = 35644.9 | 872.7159 34769.79 2.403223 x = 0.763932 | f(x) = 35629.08 | 870.0702 34756.6 2.410606 x = 0.854102 | f(x) = 35618.25 | 868.4465 34747.39 2.415368 x = 0.90983 | f(x) = 35610.89 | 867.4925 34740.98 2.418388 ====================== step 22/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35599.85 | 867.5045 34729.92 2.423398 x = 1 | f(x) = 35435.33 | 841.7746 34591.04 2.515761 x = 0.381966 | f(x) = 35503.09 | 830.83 34669.81 2.457304 x = 0.618034 | f(x) = 35463.09 | 825.8312 34634.77 2.479098 x = 0.763932 | f(x) = 35440.81 | 828.0732 34610.24 2.492898 x = 0.854102 | f(x) = 35432.56 | 834.5397 34595.51 2.501553 x = 0.90983 | f(x) = 35438.35 | 841.9242 34593.91 2.50695 ====================== step 23/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35439.26 | 840.4865 34596.27 2.501553 x = 1 | f(x) = 35377.76 | 827.9225 34547.29 2.55107 x = 0.381966 | f(x) = 35416.76 | 819.8319 34594.41 2.518729 x = 0.618034 | f(x) = 35399.79 | 819.4099 34577.85 2.530419 x = 0.763932 | f(x) = 35393.8 | 822.2267 34569.04 2.538053 x = 0.944314 | f(x) = 35386.99 | 828.3335 34556.1 2.547926 x = 0.875414 | f(x) = 35393.31 | 829.0399 34561.73 2.544098 ====================== step 24/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35389.05 | 833.3284 34553.17 2.55107 x = 1 | f(x) = 35252.08 | 814.3328 34435.1 2.649675 x = 0.381966 | f(x) = 35317.08 | 812.978 34501.52 2.588144 x = 0.618034 | f(x) = 35288.37 | 809.7173 34476.04 2.611631 x = 0.763932 | f(x) = 35271.33 | 809.3561 34459.34 2.626304 x = 0.854102 | f(x) = 35263.63 | 811.1877 34449.81 2.63523 x = 0.90983 | f(x) = 35260.58 | 813.8445 34444.09 2.640724 ====================== step 25/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35256.61 | 818.8748 34435.09 2.649675 x = 1 | f(x) = 35162.53 | 858.2925 34301.5 2.735677 x = 0.381966 | f(x) = 35180.62 | 812.9347 34365.01 2.680865 x = 0.618034 | f(x) = 35153.13 | 821.9692 34328.46 2.701322 x = 0.763932 | f(x) = 35158.4 | 837.0542 34318.64 2.714146 x = 0.645762 | f(x) = 35167.63 | 833.3942 34331.53 2.703728 x = 0.527864 | f(x) = 35170.22 | 824.2449 34343.28 2.693583 ====================== step 26/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35160.91 | 827.0912 34331.12 2.701322 x = 1 | f(x) = 35121.46 | 799.6828 34319.05 2.727671 x = 0.381966 | f(x) = 35148.31 | 811.7233 34333.88 2.710519 x = 0.618034 | f(x) = 35139.87 | 807.589 34329.56 2.716728 x = 0.763932 | f(x) = 35133.07 | 803.7518 34326.59 2.720777 x = 0.854102 | f(x) = 35127.95 | 801.0165 34324.22 2.72336 x = 0.90983 | f(x) = 35124.32 | 799.2103 34322.38 2.724988 ====================== step 27/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35118.96 | 797.3021 34318.93 2.727671 x = 1 | f(x) = 34992.01 | 809.2473 34179.93 2.832755 x = 0.381966 | f(x) = 35054.02 | 790.9423 34260.31 2.76623 x = 0.618034 | f(x) = 35029.17 | 793.4469 34232.94 2.790934 x = 0.763932 | f(x) = 35015.09 | 799.2231 34213.06 2.806639 x = 0.854102 | f(x) = 35009.09 | 806.1058 34200.16 2.816511 x = 0.90983 | f(x) = 35007.38 | 812.5981 34191.96 2.822676 ====================== step 28/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35004.31 | 822.0413 34179.44 2.832755 x = 1 | f(x) = 34934.86 | 806.5672 34125.43 2.869517 x = 0.381966 | f(x) = 34947.16 | 786.779 34157.54 2.846475 x = 0.618034 | f(x) = 34937.13 | 788.8925 34145.38 2.855052 x = 0.763932 | f(x) = 34935.7 | 795.0414 34137.8 2.86046 x = 0.748005 | f(x) = 34937.94 | 796.5456 34138.53 2.859865 x = 0.854102 | f(x) = 34938.57 | 802.5723 34133.13 2.863866 ====================== step 29/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34941.29 | 812.7676 34125.65 2.869517 x = 1 | f(x) = 34824.77 | 779.5759 34042.26 2.935703 x = 0.381966 | f(x) = 34880.02 | 788.1483 34088.98 2.894443 x = 0.618034 | f(x) = 34858.6 | 784.1169 34071.57 2.910025 x = 0.763932 | f(x) = 34843.88 | 780.8713 34060.09 2.919808 x = 0.854102 | f(x) = 34835.32 | 779.3892 34053.01 2.925901 x = 0.90983 | f(x) = 34830.73 | 779.0444 34048.76 2.929628 ====================== step 30/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34824.9 | 779.6846 34042.28 2.935703 x = 1 | f(x) = 34721.73 | 773.822 33944.9 3.012811 x = 0.381966 | f(x) = 34777.77 | 771.9934 34002.82 2.964715 x = 0.618034 | f(x) = 34756.76 | 772.5215 33981.25 2.983084 x = 0.763932 | f(x) = 34743.45 | 772.8092 33967.65 2.994365 x = 0.854102 | f(x) = 34735.33 | 773.2061 33959.12 3.001403 x = 0.90983 | f(x) = 34730.47 | 773.6076 33953.86 3.005764 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.103799 Total Core solution elapsed time: 72.6298 Linear solver elapsed time: 42.4692 (58%) Total elapsed time: 0 hrs 1 min 12 sec loading results from cluster Step 4: Transient run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/100 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.35321e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 41.371 > 1 % Convergence criterion: norm(du)/norm(u) 63.1691 > 10 % Convergence criterion: max(du) 0.000157028 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68995e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 3.67351 > 1 % Convergence criterion: norm(du)/norm(u) 7.15747 < 10 % Convergence criterion: max(du) 8.86618e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57465e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 1.10917 > 1 % Convergence criterion: norm(du)/norm(u) 2.86495 < 10 % Convergence criterion: max(du) 5.14918e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56632e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.445154 < 1 % Convergence criterion: norm(du)/norm(u) 1.23492 < 10 % Convergence criterion: max(du) 2.12087e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 4 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73084e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/100 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.4967e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.39976 < 1 % Convergence criterion: norm(du)/norm(u) 13.1949 > 10 % Convergence criterion: max(du) 3.38382e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.43547e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.111052 < 1 % Convergence criterion: norm(du)/norm(u) 3.36488 < 10 % Convergence criterion: max(du) 9.83478e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75447e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 3/100 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5492e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.271725 < 1 % Convergence criterion: norm(du)/norm(u) 11.1922 > 10 % Convergence criterion: max(du) 3.27298e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68827e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.076041 < 1 % Convergence criterion: norm(du)/norm(u) 3.86714 < 10 % Convergence criterion: max(du) 1.51084e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63022e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 4/100 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53624e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.213592 < 1 % Convergence criterion: norm(du)/norm(u) 12.8782 > 10 % Convergence criterion: max(du) 4.34484e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57948e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0615855 < 1 % Convergence criterion: norm(du)/norm(u) 4.90592 < 10 % Convergence criterion: max(du) 2.25843e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96115e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 5/100 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61796e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.17981 < 1 % Convergence criterion: norm(du)/norm(u) 13.2234 > 10 % Convergence criterion: max(du) 4.70975e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42004e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0519116 < 1 % Convergence criterion: norm(du)/norm(u) 5.45856 < 10 % Convergence criterion: max(du) 2.79461e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01637e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/100 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71241e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.158264 < 1 % Convergence criterion: norm(du)/norm(u) 11.3871 > 10 % Convergence criterion: max(du) 4.73377e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.6047e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0451186 < 1 % Convergence criterion: norm(du)/norm(u) 4.9933 < 10 % Convergence criterion: max(du) 2.80978e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76956e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 7/100 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62739e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.143012 < 1 % Convergence criterion: norm(du)/norm(u) 8.5021 < 10 % Convergence criterion: max(du) 4.06839e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65489e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 8/100 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61133e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.153015 < 1 % Convergence criterion: norm(du)/norm(u) 7.82695 < 10 % Convergence criterion: max(du) 4.16499e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79232e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 9/100 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67285e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.148855 < 1 % Convergence criterion: norm(du)/norm(u) 6.42596 < 10 % Convergence criterion: max(du) 3.71476e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70656e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 10/100 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.4712e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.14179 < 1 % Convergence criterion: norm(du)/norm(u) 5.02037 < 10 % Convergence criterion: max(du) 3.04604e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87946e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/100 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.34992e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.135019 < 1 % Convergence criterion: norm(du)/norm(u) 3.8637 < 10 % Convergence criterion: max(du) 2.37104e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.02238e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 12/100 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.46763e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.129411 < 1 % Convergence criterion: norm(du)/norm(u) 3.00068 < 10 % Convergence criterion: max(du) 1.79943e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67153e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 13/100 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.66677e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.124912 < 1 % Convergence criterion: norm(du)/norm(u) 2.38986 < 10 % Convergence criterion: max(du) 1.36478e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76987e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 14/100 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48017e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.121222 < 1 % Convergence criterion: norm(du)/norm(u) 1.9658 < 10 % Convergence criterion: max(du) 1.05699e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.80775e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 15/100 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55525e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.118073 < 1 % Convergence criterion: norm(du)/norm(u) 1.66967 < 10 % Convergence criterion: max(du) 9.13355e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01437e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/100 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62123e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.115283 < 1 % Convergence criterion: norm(du)/norm(u) 1.457 < 10 % Convergence criterion: max(du) 8.17367e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59905e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 17/100 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51425e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.112745 < 1 % Convergence criterion: norm(du)/norm(u) 1.29694 < 10 % Convergence criterion: max(du) 7.33618e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98679e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 18/100 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49577e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.110392 < 1 % Convergence criterion: norm(du)/norm(u) 1.17077 < 10 % Convergence criterion: max(du) 6.60726e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98144e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 19/100 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.43684e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.108194 < 1 % Convergence criterion: norm(du)/norm(u) 1.06712 < 10 % Convergence criterion: max(du) 5.97275e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 20/100 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.7408e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.106124 < 1 % Convergence criterion: norm(du)/norm(u) 0.979212 < 10 % Convergence criterion: max(du) 5.42071e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85556e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/100 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75364e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.104165 < 1 % Convergence criterion: norm(du)/norm(u) 0.903128 < 10 % Convergence criterion: max(du) 4.94322e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.53554e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 22/100 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.80603e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.102305 < 1 % Convergence criterion: norm(du)/norm(u) 0.83632 < 10 % Convergence criterion: max(du) 4.52667e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.7517e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 23/100 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54097e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.100536 < 1 % Convergence criterion: norm(du)/norm(u) 0.777485 < 10 % Convergence criterion: max(du) 4.16576e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 24/100 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67224e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0988582 < 1 % Convergence criterion: norm(du)/norm(u) 0.725694 < 10 % Convergence criterion: max(du) 3.8535e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01409e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 25/100 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68981e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0972599 < 1 % Convergence criterion: norm(du)/norm(u) 0.680774 < 10 % Convergence criterion: max(du) 3.58314e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.21946e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/100 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51444e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0957355 < 1 % Convergence criterion: norm(du)/norm(u) 0.641499 < 10 % Convergence criterion: max(du) 3.34844e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78816e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 27/100 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72985e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0942812 < 1 % Convergence criterion: norm(du)/norm(u) 0.606834 < 10 % Convergence criterion: max(du) 3.14377e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.89247e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 28/100 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.46119e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0928908 < 1 % Convergence criterion: norm(du)/norm(u) 0.576063 < 10 % Convergence criterion: max(du) 2.96418e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.29297e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 29/100 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48574e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0915596 < 1 % Convergence criterion: norm(du)/norm(u) 0.548621 < 10 % Convergence criterion: max(du) 2.8054e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.60513e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 30/100 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63903e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0902826 < 1 % Convergence criterion: norm(du)/norm(u) 0.523982 < 10 % Convergence criterion: max(du) 2.66382e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72195e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/100 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.77931e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0890553 < 1 % Convergence criterion: norm(du)/norm(u) 0.501671 < 10 % Convergence criterion: max(du) 2.53643e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 32/100 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60988e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0878745 < 1 % Convergence criterion: norm(du)/norm(u) 0.481518 < 10 % Convergence criterion: max(du) 2.42275e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.18685e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 33/100 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57315e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.086737 < 1 % Convergence criterion: norm(du)/norm(u) 0.462906 < 10 % Convergence criterion: max(du) 2.3173e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6803e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 34/100 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.6731e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0856396 < 1 % Convergence criterion: norm(du)/norm(u) 0.445731 < 10 % Convergence criterion: max(du) 2.21987e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94409e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 35/100 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.497e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0845798 < 1 % Convergence criterion: norm(du)/norm(u) 0.429883 < 10 % Convergence criterion: max(du) 2.1297e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86089e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/100 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.47188e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0835546 < 1 % Convergence criterion: norm(du)/norm(u) 0.415204 < 10 % Convergence criterion: max(du) 2.04545e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9039e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 37/100 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41713e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0825623 < 1 % Convergence criterion: norm(du)/norm(u) 0.401602 < 10 % Convergence criterion: max(du) 1.96616e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94496e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 38/100 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.44243e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0816006 < 1 % Convergence criterion: norm(du)/norm(u) 0.38893 < 10 % Convergence criterion: max(du) 1.89116e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91889e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 39/100 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.45587e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0806678 < 1 % Convergence criterion: norm(du)/norm(u) 0.377114 < 10 % Convergence criterion: max(du) 1.81993e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86173e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 40/100 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.70223e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0797625 < 1 % Convergence criterion: norm(du)/norm(u) 0.366039 < 10 % Convergence criterion: max(du) 1.7521e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.28797e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/100 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49693e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0788836 < 1 % Convergence criterion: norm(du)/norm(u) 0.355635 < 10 % Convergence criterion: max(du) 1.68725e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86968e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 42/100 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5884e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0780298 < 1 % Convergence criterion: norm(du)/norm(u) 0.345806 < 10 % Convergence criterion: max(du) 1.62529e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72358e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 43/100 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62933e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0772003 < 1 % Convergence criterion: norm(du)/norm(u) 0.336508 < 10 % Convergence criterion: max(du) 1.56611e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98662e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 44/100 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.40564e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0763939 < 1 % Convergence criterion: norm(du)/norm(u) 0.327688 < 10 % Convergence criterion: max(du) 1.50945e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75023e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 45/100 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55327e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0756099 < 1 % Convergence criterion: norm(du)/norm(u) 0.319299 < 10 % Convergence criterion: max(du) 1.45514e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.64018e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/100 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60315e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0748474 < 1 % Convergence criterion: norm(du)/norm(u) 0.311269 < 10 % Convergence criterion: max(du) 1.40306e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.08434e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 47/100 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.3523e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0741054 < 1 % Convergence criterion: norm(du)/norm(u) 0.30362 < 10 % Convergence criterion: max(du) 1.37128e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.05146e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 48/100 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.58931e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0733832 < 1 % Convergence criterion: norm(du)/norm(u) 0.296271 < 10 % Convergence criterion: max(du) 1.34222e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90273e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 49/100 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60218e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0726804 < 1 % Convergence criterion: norm(du)/norm(u) 0.289265 < 10 % Convergence criterion: max(du) 1.31406e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.10161e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 50/100 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53589e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0719966 < 1 % Convergence criterion: norm(du)/norm(u) 0.282562 < 10 % Convergence criterion: max(du) 1.28675e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98419e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/100 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71751e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0713312 < 1 % Convergence criterion: norm(du)/norm(u) 0.276132 < 10 % Convergence criterion: max(du) 1.26026e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59434e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 52/100 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51876e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.07068 < 1 % Convergence criterion: norm(du)/norm(u) 0.267372 < 10 % Convergence criterion: max(du) 1.21537e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 53/100 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41716e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0700462 < 1 % Convergence criterion: norm(du)/norm(u) 0.258625 < 10 % Convergence criterion: max(du) 1.16725e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.21846e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 54/100 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.50032e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0694297 < 1 % Convergence criterion: norm(du)/norm(u) 0.250199 < 10 % Convergence criterion: max(du) 1.1193e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63943e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 55/100 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55367e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0688301 < 1 % Convergence criterion: norm(du)/norm(u) 0.24214 < 10 % Convergence criterion: max(du) 1.07263e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.14474e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/100 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56291e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0682468 < 1 % Convergence criterion: norm(du)/norm(u) 0.234435 < 10 % Convergence criterion: max(du) 1.02752e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94983e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 57/100 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60696e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0676789 < 1 % Convergence criterion: norm(du)/norm(u) 0.227053 < 10 % Convergence criterion: max(du) 9.84042e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94976e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 58/100 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72249e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0671252 < 1 % Convergence criterion: norm(du)/norm(u) 0.21997 < 10 % Convergence criterion: max(du) 9.42131e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96489e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 59/100 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.59814e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.066585 < 1 % Convergence criterion: norm(du)/norm(u) 0.213146 < 10 % Convergence criterion: max(du) 9.01718e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.15981e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 60/100 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5624e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0660572 < 1 % Convergence criterion: norm(du)/norm(u) 0.206596 < 10 % Convergence criterion: max(du) 8.62727e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61067e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/100 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5908e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0655407 < 1 % Convergence criterion: norm(du)/norm(u) 0.200281 < 10 % Convergence criterion: max(du) 8.25088e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83494e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 62/100 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.38579e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0650343 < 1 % Convergence criterion: norm(du)/norm(u) 0.194187 < 10 % Convergence criterion: max(du) 7.88734e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 63/100 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71573e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0645372 < 1 % Convergence criterion: norm(du)/norm(u) 0.188273 < 10 % Convergence criterion: max(du) 7.53607e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.97108e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 64/100 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5766e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0640486 < 1 % Convergence criterion: norm(du)/norm(u) 0.182631 < 10 % Convergence criterion: max(du) 7.19654e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.27598e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 65/100 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48407e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0635683 < 1 % Convergence criterion: norm(du)/norm(u) 0.177198 < 10 % Convergence criterion: max(du) 6.86825e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6988e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/100 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54879e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0630951 < 1 % Convergence criterion: norm(du)/norm(u) 0.171971 < 10 % Convergence criterion: max(du) 6.55077e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87525e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 67/100 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56091e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0626288 < 1 % Convergence criterion: norm(du)/norm(u) 0.166913 < 10 % Convergence criterion: max(du) 6.24367e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.10981e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 68/100 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55999e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0621694 < 1 % Convergence criterion: norm(du)/norm(u) 0.162057 < 10 % Convergence criterion: max(du) 5.94659e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.99819e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 69/100 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.31457e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.061717 < 1 % Convergence criterion: norm(du)/norm(u) 0.157406 < 10 % Convergence criterion: max(du) 5.65917e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.37217e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 70/100 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53062e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0612712 < 1 % Convergence criterion: norm(du)/norm(u) 0.152932 < 10 % Convergence criterion: max(du) 5.38107e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.8069e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/100 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.52702e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0608321 < 1 % Convergence criterion: norm(du)/norm(u) 0.148617 < 10 % Convergence criterion: max(du) 5.11198e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87958e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 72/100 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57838e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0603996 < 1 % Convergence criterion: norm(du)/norm(u) 0.144487 < 10 % Convergence criterion: max(du) 4.85159e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.08138e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 73/100 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53723e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0599738 < 1 % Convergence criterion: norm(du)/norm(u) 0.140528 < 10 % Convergence criterion: max(du) 4.5996e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.99679e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 74/100 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56918e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0595549 < 1 % Convergence criterion: norm(du)/norm(u) 0.136727 < 10 % Convergence criterion: max(du) 4.38177e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83089e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 75/100 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62138e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0591428 < 1 % Convergence criterion: norm(du)/norm(u) 0.13309 < 10 % Convergence criterion: max(du) 4.18997e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.27122e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/100 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67782e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0587375 < 1 % Convergence criterion: norm(du)/norm(u) 0.129493 < 10 % Convergence criterion: max(du) 4.0049e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73135e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 77/100 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63139e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.058339 < 1 % Convergence criterion: norm(du)/norm(u) 0.126135 < 10 % Convergence criterion: max(du) 3.82626e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04714e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 78/100 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5111e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0579474 < 1 % Convergence criterion: norm(du)/norm(u) 0.12297 < 10 % Convergence criterion: max(du) 3.65374e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87628e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 79/100 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.47892e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0575626 < 1 % Convergence criterion: norm(du)/norm(u) 0.119972 < 10 % Convergence criterion: max(du) 3.48708e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.20672e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 80/100 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5777e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0571843 < 1 % Convergence criterion: norm(du)/norm(u) 0.117108 < 10 % Convergence criterion: max(du) 3.32601e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.60623e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/100 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54065e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0568135 < 1 % Convergence criterion: norm(du)/norm(u) 0.1144 < 10 % Convergence criterion: max(du) 3.17026e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04018e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 82/100 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60821e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0564484 < 1 % Convergence criterion: norm(du)/norm(u) 0.111627 < 10 % Convergence criterion: max(du) 3.01962e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.24554e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 83/100 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62506e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0560901 < 1 % Convergence criterion: norm(du)/norm(u) 0.109128 < 10 % Convergence criterion: max(du) 2.87383e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62807e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 84/100 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.34731e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0557383 < 1 % Convergence criterion: norm(du)/norm(u) 0.106868 < 10 % Convergence criterion: max(du) 2.7327e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77037e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 85/100 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42804e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0553924 < 1 % Convergence criterion: norm(du)/norm(u) 0.104765 < 10 % Convergence criterion: max(du) 2.596e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.12847e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/100 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53197e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0550529 < 1 % Convergence criterion: norm(du)/norm(u) 0.102801 < 10 % Convergence criterion: max(du) 2.46354e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72943e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 87/100 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.74283e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0547192 < 1 % Convergence criterion: norm(du)/norm(u) 0.100568 < 10 % Convergence criterion: max(du) 2.33515e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79451e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 88/100 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42941e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0543918 < 1 % Convergence criterion: norm(du)/norm(u) 0.0987584 < 10 % Convergence criterion: max(du) 2.21062e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88382e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 89/100 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.37479e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0540703 < 1 % Convergence criterion: norm(du)/norm(u) 0.0967644 < 10 % Convergence criterion: max(du) 2.08981e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83114e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 90/100 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60909e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0537547 < 1 % Convergence criterion: norm(du)/norm(u) 0.0952115 < 10 % Convergence criterion: max(du) 1.97255e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6854e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/100 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63958e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0534447 < 1 % Convergence criterion: norm(du)/norm(u) 0.0938128 < 10 % Convergence criterion: max(du) 1.85867e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70173e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 92/100 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41989e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0531379 < 1 % Convergence criterion: norm(du)/norm(u) 0.0925358 < 10 % Convergence criterion: max(du) 1.83323e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88803e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 93/100 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61521e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0528388 < 1 % Convergence criterion: norm(du)/norm(u) 0.0909609 < 10 % Convergence criterion: max(du) 1.907e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04456e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 94/100 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49649e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0525456 < 1 % Convergence criterion: norm(du)/norm(u) 0.0898911 < 10 % Convergence criterion: max(du) 1.97948e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61802e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 95/100 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62959e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0522576 < 1 % Convergence criterion: norm(du)/norm(u) 0.088926 < 10 % Convergence criterion: max(du) 2.05073e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.36673e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/100 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60037e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0519715 < 1 % Convergence criterion: norm(du)/norm(u) 0.0877013 < 10 % Convergence criterion: max(du) 2.12083e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61548e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 97/100 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63244e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0516925 < 1 % Convergence criterion: norm(du)/norm(u) 0.0868634 < 10 % Convergence criterion: max(du) 2.18981e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87914e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 98/100 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5986e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0514187 < 1 % Convergence criterion: norm(du)/norm(u) 0.0861519 < 10 % Convergence criterion: max(du) 2.25772e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.66283e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 99/100 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55374e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0511506 < 1 % Convergence criterion: norm(du)/norm(u) 0.0853259 < 10 % Convergence criterion: max(du) 2.32463e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.26329e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 100/100 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75967e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0508878 < 1 % Convergence criterion: norm(du)/norm(u) 0.0848305 < 10 % Convergence criterion: max(du) 2.39056e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.17501e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.130599 Total Core solution elapsed time: 36.0569 Linear solver elapsed time: 16.2266 (45%) Total elapsed time: 0 hrs 0 min 36 sec loading results from cluster Step 5: Plotting Step 6: Extract Box SMB Step 7: Historical Relaxation run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/1000 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/1000 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 3/1000 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 4/1000 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 5/1000 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/1000 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 7/1000 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 8/1000 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 9/1000 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 10/1000 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/1000 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 12/1000 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 13/1000 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 14/1000 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 15/1000 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/1000 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 17/1000 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 18/1000 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 19/1000 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 20/1000 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/1000 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 22/1000 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 23/1000 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 24/1000 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 25/1000 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/1000 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 27/1000 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 28/1000 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 29/1000 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 30/1000 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/1000 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 32/1000 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 33/1000 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 34/1000 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 35/1000 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/1000 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 37/1000 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 38/1000 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 39/1000 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 40/1000 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/1000 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 42/1000 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 43/1000 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 44/1000 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 45/1000 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/1000 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 47/1000 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 48/1000 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 49/1000 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 50/1000 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/1000 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 52/1000 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 53/1000 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 54/1000 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 55/1000 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/1000 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 57/1000 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 58/1000 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 59/1000 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 60/1000 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/1000 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 62/1000 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 63/1000 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 64/1000 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 65/1000 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/1000 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 67/1000 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 68/1000 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 69/1000 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 70/1000 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/1000 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 72/1000 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 73/1000 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 74/1000 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 75/1000 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/1000 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 77/1000 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 78/1000 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 79/1000 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 80/1000 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/1000 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 82/1000 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 83/1000 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 84/1000 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 85/1000 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/1000 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 87/1000 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 88/1000 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 89/1000 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 90/1000 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/1000 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 92/1000 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 93/1000 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 94/1000 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 95/1000 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/1000 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 97/1000 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 98/1000 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 99/1000 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 100/1000 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 101/1000 time [yr]: 20.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 102/1000 time [yr]: 20.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 103/1000 time [yr]: 20.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 104/1000 time [yr]: 20.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 105/1000 time [yr]: 21.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 106/1000 time [yr]: 21.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 107/1000 time [yr]: 21.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 108/1000 time [yr]: 21.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 109/1000 time [yr]: 21.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 110/1000 time [yr]: 22.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 111/1000 time [yr]: 22.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 112/1000 time [yr]: 22.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 113/1000 time [yr]: 22.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 114/1000 time [yr]: 22.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 115/1000 time [yr]: 23.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 116/1000 time [yr]: 23.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 117/1000 time [yr]: 23.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 118/1000 time [yr]: 23.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 119/1000 time [yr]: 23.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 120/1000 time [yr]: 24.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 121/1000 time [yr]: 24.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 122/1000 time [yr]: 24.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 123/1000 time [yr]: 24.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 124/1000 time [yr]: 24.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 125/1000 time [yr]: 25.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 126/1000 time [yr]: 25.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 127/1000 time [yr]: 25.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 128/1000 time [yr]: 25.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 129/1000 time [yr]: 25.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 130/1000 time [yr]: 26.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 131/1000 time [yr]: 26.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 132/1000 time [yr]: 26.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 133/1000 time [yr]: 26.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 134/1000 time [yr]: 26.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 135/1000 time [yr]: 27.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 136/1000 time [yr]: 27.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 137/1000 time [yr]: 27.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 138/1000 time [yr]: 27.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 139/1000 time [yr]: 27.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 140/1000 time [yr]: 28.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 141/1000 time [yr]: 28.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 142/1000 time [yr]: 28.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 143/1000 time [yr]: 28.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 144/1000 time [yr]: 28.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 145/1000 time [yr]: 29.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 146/1000 time [yr]: 29.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 147/1000 time [yr]: 29.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 148/1000 time [yr]: 29.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 149/1000 time [yr]: 29.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 150/1000 time [yr]: 30.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 151/1000 time [yr]: 30.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 152/1000 time [yr]: 30.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 153/1000 time [yr]: 30.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 154/1000 time [yr]: 30.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 155/1000 time [yr]: 31.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 156/1000 time [yr]: 31.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 157/1000 time [yr]: 31.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 158/1000 time [yr]: 31.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 159/1000 time [yr]: 31.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 160/1000 time [yr]: 32.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 161/1000 time [yr]: 32.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 162/1000 time [yr]: 32.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 163/1000 time [yr]: 32.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 164/1000 time [yr]: 32.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 165/1000 time [yr]: 33.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 166/1000 time [yr]: 33.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 167/1000 time [yr]: 33.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 168/1000 time [yr]: 33.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 169/1000 time [yr]: 33.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 170/1000 time [yr]: 34.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 171/1000 time [yr]: 34.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 172/1000 time [yr]: 34.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 173/1000 time [yr]: 34.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 174/1000 time [yr]: 34.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 175/1000 time [yr]: 35.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 176/1000 time [yr]: 35.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 177/1000 time [yr]: 35.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 178/1000 time [yr]: 35.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 179/1000 time [yr]: 35.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 180/1000 time [yr]: 36.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 181/1000 time [yr]: 36.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 182/1000 time [yr]: 36.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 183/1000 time [yr]: 36.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 184/1000 time [yr]: 36.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 185/1000 time [yr]: 37.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 186/1000 time [yr]: 37.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 187/1000 time [yr]: 37.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 188/1000 time [yr]: 37.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 189/1000 time [yr]: 37.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 190/1000 time [yr]: 38.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 191/1000 time [yr]: 38.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 192/1000 time [yr]: 38.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 193/1000 time [yr]: 38.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 194/1000 time [yr]: 38.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 195/1000 time [yr]: 39.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 196/1000 time [yr]: 39.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 197/1000 time [yr]: 39.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 198/1000 time [yr]: 39.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 199/1000 time [yr]: 39.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 200/1000 time [yr]: 40.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 201/1000 time [yr]: 40.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 202/1000 time [yr]: 40.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 203/1000 time [yr]: 40.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 204/1000 time [yr]: 40.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 205/1000 time [yr]: 41.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 206/1000 time [yr]: 41.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 207/1000 time [yr]: 41.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 208/1000 time [yr]: 41.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 209/1000 time [yr]: 41.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 210/1000 time [yr]: 42.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 211/1000 time [yr]: 42.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 212/1000 time [yr]: 42.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 213/1000 time [yr]: 42.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 214/1000 time [yr]: 42.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 215/1000 time [yr]: 43.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 216/1000 time [yr]: 43.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 217/1000 time [yr]: 43.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 218/1000 time [yr]: 43.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 219/1000 time [yr]: 43.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 220/1000 time [yr]: 44.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 221/1000 time [yr]: 44.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 222/1000 time [yr]: 44.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 223/1000 time [yr]: 44.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 224/1000 time [yr]: 44.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 225/1000 time [yr]: 45.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 226/1000 time [yr]: 45.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 227/1000 time [yr]: 45.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 228/1000 time [yr]: 45.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 229/1000 time [yr]: 45.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 230/1000 time [yr]: 46.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 231/1000 time [yr]: 46.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 232/1000 time [yr]: 46.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 233/1000 time [yr]: 46.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 234/1000 time [yr]: 46.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 235/1000 time [yr]: 47.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 236/1000 time [yr]: 47.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 237/1000 time [yr]: 47.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 238/1000 time [yr]: 47.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 239/1000 time [yr]: 47.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 240/1000 time [yr]: 48.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 241/1000 time [yr]: 48.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 242/1000 time [yr]: 48.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 243/1000 time [yr]: 48.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 244/1000 time [yr]: 48.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 245/1000 time [yr]: 49.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 246/1000 time [yr]: 49.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 247/1000 time [yr]: 49.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 248/1000 time [yr]: 49.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 249/1000 time [yr]: 49.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 250/1000 time [yr]: 50.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 251/1000 time [yr]: 50.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 252/1000 time [yr]: 50.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 253/1000 time [yr]: 50.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 254/1000 time [yr]: 50.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 255/1000 time [yr]: 51.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 256/1000 time [yr]: 51.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 257/1000 time [yr]: 51.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 258/1000 time [yr]: 51.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 259/1000 time [yr]: 51.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 260/1000 time [yr]: 52.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 261/1000 time [yr]: 52.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 262/1000 time [yr]: 52.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 263/1000 time [yr]: 52.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 264/1000 time [yr]: 52.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 265/1000 time [yr]: 53.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 266/1000 time [yr]: 53.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 267/1000 time [yr]: 53.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 268/1000 time [yr]: 53.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 269/1000 time [yr]: 53.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 270/1000 time [yr]: 54.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 271/1000 time [yr]: 54.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 272/1000 time [yr]: 54.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 273/1000 time [yr]: 54.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 274/1000 time [yr]: 54.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 275/1000 time [yr]: 55.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 276/1000 time [yr]: 55.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 277/1000 time [yr]: 55.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 278/1000 time [yr]: 55.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 279/1000 time [yr]: 55.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 280/1000 time [yr]: 56.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 281/1000 time [yr]: 56.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 282/1000 time [yr]: 56.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 283/1000 time [yr]: 56.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 284/1000 time [yr]: 56.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 285/1000 time [yr]: 57.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 286/1000 time [yr]: 57.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 287/1000 time [yr]: 57.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 288/1000 time [yr]: 57.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 289/1000 time [yr]: 57.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 290/1000 time [yr]: 58.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 291/1000 time [yr]: 58.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 292/1000 time [yr]: 58.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 293/1000 time [yr]: 58.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 294/1000 time [yr]: 58.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 295/1000 time [yr]: 59.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 296/1000 time [yr]: 59.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 297/1000 time [yr]: 59.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 298/1000 time [yr]: 59.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 299/1000 time [yr]: 59.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 300/1000 time [yr]: 60.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 301/1000 time [yr]: 60.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 302/1000 time [yr]: 60.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 303/1000 time [yr]: 60.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 304/1000 time [yr]: 60.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 305/1000 time [yr]: 61.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 306/1000 time [yr]: 61.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 307/1000 time [yr]: 61.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 308/1000 time [yr]: 61.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 309/1000 time [yr]: 61.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 310/1000 time [yr]: 62.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 311/1000 time [yr]: 62.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 312/1000 time [yr]: 62.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 313/1000 time [yr]: 62.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 314/1000 time [yr]: 62.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 315/1000 time [yr]: 63.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 316/1000 time [yr]: 63.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 317/1000 time [yr]: 63.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 318/1000 time [yr]: 63.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 319/1000 time [yr]: 63.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 320/1000 time [yr]: 64.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 321/1000 time [yr]: 64.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 322/1000 time [yr]: 64.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 323/1000 time [yr]: 64.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 324/1000 time [yr]: 64.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 325/1000 time [yr]: 65.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 326/1000 time [yr]: 65.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 327/1000 time [yr]: 65.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 328/1000 time [yr]: 65.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 329/1000 time [yr]: 65.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 330/1000 time [yr]: 66.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 331/1000 time [yr]: 66.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 332/1000 time [yr]: 66.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 333/1000 time [yr]: 66.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 334/1000 time [yr]: 66.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 335/1000 time [yr]: 67.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 336/1000 time [yr]: 67.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 337/1000 time [yr]: 67.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 338/1000 time [yr]: 67.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 339/1000 time [yr]: 67.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 340/1000 time [yr]: 68.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 341/1000 time [yr]: 68.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 342/1000 time [yr]: 68.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 343/1000 time [yr]: 68.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 344/1000 time [yr]: 68.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 345/1000 time [yr]: 69.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 346/1000 time [yr]: 69.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 347/1000 time [yr]: 69.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 348/1000 time [yr]: 69.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 349/1000 time [yr]: 69.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 350/1000 time [yr]: 70.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 351/1000 time [yr]: 70.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 352/1000 time [yr]: 70.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 353/1000 time [yr]: 70.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 354/1000 time [yr]: 70.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 355/1000 time [yr]: 71.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 356/1000 time [yr]: 71.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 357/1000 time [yr]: 71.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 358/1000 time [yr]: 71.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 359/1000 time [yr]: 71.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 360/1000 time [yr]: 72.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 361/1000 time [yr]: 72.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 362/1000 time [yr]: 72.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 363/1000 time [yr]: 72.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 364/1000 time [yr]: 72.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 365/1000 time [yr]: 73.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 366/1000 time [yr]: 73.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 367/1000 time [yr]: 73.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 368/1000 time [yr]: 73.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 369/1000 time [yr]: 73.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 370/1000 time [yr]: 74.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 371/1000 time [yr]: 74.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 372/1000 time [yr]: 74.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 373/1000 time [yr]: 74.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 374/1000 time [yr]: 74.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 375/1000 time [yr]: 75.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 376/1000 time [yr]: 75.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 377/1000 time [yr]: 75.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 378/1000 time [yr]: 75.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 379/1000 time [yr]: 75.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 380/1000 time [yr]: 76.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 381/1000 time [yr]: 76.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 382/1000 time [yr]: 76.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 383/1000 time [yr]: 76.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 384/1000 time [yr]: 76.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 385/1000 time [yr]: 77.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 386/1000 time [yr]: 77.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 387/1000 time [yr]: 77.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 388/1000 time [yr]: 77.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 389/1000 time [yr]: 77.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 390/1000 time [yr]: 78.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 391/1000 time [yr]: 78.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 392/1000 time [yr]: 78.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 393/1000 time [yr]: 78.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 394/1000 time [yr]: 78.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 395/1000 time [yr]: 79.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 396/1000 time [yr]: 79.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 397/1000 time [yr]: 79.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 398/1000 time [yr]: 79.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 399/1000 time [yr]: 79.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 400/1000 time [yr]: 80.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 401/1000 time [yr]: 80.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 402/1000 time [yr]: 80.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 403/1000 time [yr]: 80.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 404/1000 time [yr]: 80.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 405/1000 time [yr]: 81.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 406/1000 time [yr]: 81.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 407/1000 time [yr]: 81.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 408/1000 time [yr]: 81.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 409/1000 time [yr]: 81.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 410/1000 time [yr]: 82.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 411/1000 time [yr]: 82.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 412/1000 time [yr]: 82.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 413/1000 time [yr]: 82.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 414/1000 time [yr]: 82.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 415/1000 time [yr]: 83.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 416/1000 time [yr]: 83.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 417/1000 time [yr]: 83.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 418/1000 time [yr]: 83.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 419/1000 time [yr]: 83.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 420/1000 time [yr]: 84.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 421/1000 time [yr]: 84.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 422/1000 time [yr]: 84.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 423/1000 time [yr]: 84.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 424/1000 time [yr]: 84.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 425/1000 time [yr]: 85.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 426/1000 time [yr]: 85.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 427/1000 time [yr]: 85.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 428/1000 time [yr]: 85.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 429/1000 time [yr]: 85.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 430/1000 time [yr]: 86.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 431/1000 time [yr]: 86.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 432/1000 time [yr]: 86.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 433/1000 time [yr]: 86.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 434/1000 time [yr]: 86.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 435/1000 time [yr]: 87.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 436/1000 time [yr]: 87.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 437/1000 time [yr]: 87.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 438/1000 time [yr]: 87.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 439/1000 time [yr]: 87.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 440/1000 time [yr]: 88.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 441/1000 time [yr]: 88.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 442/1000 time [yr]: 88.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 443/1000 time [yr]: 88.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 444/1000 time [yr]: 88.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 445/1000 time [yr]: 89.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 446/1000 time [yr]: 89.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 447/1000 time [yr]: 89.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 448/1000 time [yr]: 89.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 449/1000 time [yr]: 89.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 450/1000 time [yr]: 90.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 451/1000 time [yr]: 90.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 452/1000 time [yr]: 90.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 453/1000 time [yr]: 90.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 454/1000 time [yr]: 90.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 455/1000 time [yr]: 91.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 456/1000 time [yr]: 91.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 457/1000 time [yr]: 91.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 458/1000 time [yr]: 91.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 459/1000 time [yr]: 91.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 460/1000 time [yr]: 92.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 461/1000 time [yr]: 92.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 462/1000 time [yr]: 92.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 463/1000 time [yr]: 92.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 464/1000 time [yr]: 92.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 465/1000 time [yr]: 93.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 466/1000 time [yr]: 93.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 467/1000 time [yr]: 93.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 468/1000 time [yr]: 93.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 469/1000 time [yr]: 93.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 470/1000 time [yr]: 94.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 471/1000 time [yr]: 94.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 472/1000 time [yr]: 94.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 473/1000 time [yr]: 94.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 474/1000 time [yr]: 94.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 475/1000 time [yr]: 95.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 476/1000 time [yr]: 95.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 477/1000 time [yr]: 95.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 478/1000 time [yr]: 95.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 479/1000 time [yr]: 95.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 480/1000 time [yr]: 96.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 481/1000 time [yr]: 96.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 482/1000 time [yr]: 96.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 483/1000 time [yr]: 96.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 484/1000 time [yr]: 96.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 485/1000 time [yr]: 97.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 486/1000 time [yr]: 97.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 487/1000 time [yr]: 97.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 488/1000 time [yr]: 97.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 489/1000 time [yr]: 97.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 490/1000 time [yr]: 98.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 491/1000 time [yr]: 98.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 492/1000 time [yr]: 98.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 493/1000 time [yr]: 98.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 494/1000 time [yr]: 98.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 495/1000 time [yr]: 99.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 496/1000 time [yr]: 99.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 497/1000 time [yr]: 99.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 498/1000 time [yr]: 99.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 499/1000 time [yr]: 99.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 500/1000 time [yr]: 100.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 501/1000 time [yr]: 100.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 502/1000 time [yr]: 100.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 503/1000 time [yr]: 100.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 504/1000 time [yr]: 100.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 505/1000 time [yr]: 101.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 506/1000 time [yr]: 101.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 507/1000 time [yr]: 101.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 508/1000 time [yr]: 101.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 509/1000 time [yr]: 101.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 510/1000 time [yr]: 102.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 511/1000 time [yr]: 102.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 512/1000 time [yr]: 102.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 513/1000 time [yr]: 102.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 514/1000 time [yr]: 102.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 515/1000 time [yr]: 103.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 516/1000 time [yr]: 103.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 517/1000 time [yr]: 103.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 518/1000 time [yr]: 103.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 519/1000 time [yr]: 103.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 520/1000 time [yr]: 104.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 521/1000 time [yr]: 104.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 522/1000 time [yr]: 104.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 523/1000 time [yr]: 104.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 524/1000 time [yr]: 104.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 525/1000 time [yr]: 105.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 526/1000 time [yr]: 105.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 527/1000 time [yr]: 105.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 528/1000 time [yr]: 105.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 529/1000 time [yr]: 105.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 530/1000 time [yr]: 106.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 531/1000 time [yr]: 106.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 532/1000 time [yr]: 106.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 533/1000 time [yr]: 106.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 534/1000 time [yr]: 106.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 535/1000 time [yr]: 107.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 536/1000 time [yr]: 107.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 537/1000 time [yr]: 107.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 538/1000 time [yr]: 107.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 539/1000 time [yr]: 107.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 540/1000 time [yr]: 108.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 541/1000 time [yr]: 108.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 542/1000 time [yr]: 108.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 543/1000 time [yr]: 108.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 544/1000 time [yr]: 108.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 545/1000 time [yr]: 109.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 546/1000 time [yr]: 109.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 547/1000 time [yr]: 109.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 548/1000 time [yr]: 109.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 549/1000 time [yr]: 109.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 550/1000 time [yr]: 110.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 551/1000 time [yr]: 110.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 552/1000 time [yr]: 110.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 553/1000 time [yr]: 110.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 554/1000 time [yr]: 110.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 555/1000 time [yr]: 111.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 556/1000 time [yr]: 111.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 557/1000 time [yr]: 111.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 558/1000 time [yr]: 111.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 559/1000 time [yr]: 111.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 560/1000 time [yr]: 112.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 561/1000 time [yr]: 112.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 562/1000 time [yr]: 112.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 563/1000 time [yr]: 112.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 564/1000 time [yr]: 112.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 565/1000 time [yr]: 113.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 566/1000 time [yr]: 113.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 567/1000 time [yr]: 113.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 568/1000 time [yr]: 113.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 569/1000 time [yr]: 113.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 570/1000 time [yr]: 114.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 571/1000 time [yr]: 114.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 572/1000 time [yr]: 114.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 573/1000 time [yr]: 114.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 574/1000 time [yr]: 114.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 575/1000 time [yr]: 115.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 576/1000 time [yr]: 115.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 577/1000 time [yr]: 115.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 578/1000 time [yr]: 115.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 579/1000 time [yr]: 115.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 580/1000 time [yr]: 116.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 581/1000 time [yr]: 116.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 582/1000 time [yr]: 116.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 583/1000 time [yr]: 116.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 584/1000 time [yr]: 116.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 585/1000 time [yr]: 117.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 586/1000 time [yr]: 117.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 587/1000 time [yr]: 117.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 588/1000 time [yr]: 117.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 589/1000 time [yr]: 117.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 590/1000 time [yr]: 118.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 591/1000 time [yr]: 118.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 592/1000 time [yr]: 118.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 593/1000 time [yr]: 118.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 594/1000 time [yr]: 118.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 595/1000 time [yr]: 119.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 596/1000 time [yr]: 119.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 597/1000 time [yr]: 119.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 598/1000 time [yr]: 119.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 599/1000 time [yr]: 119.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 600/1000 time [yr]: 120.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 601/1000 time [yr]: 120.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 602/1000 time [yr]: 120.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 603/1000 time [yr]: 120.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 604/1000 time [yr]: 120.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 605/1000 time [yr]: 121.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 606/1000 time [yr]: 121.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 607/1000 time [yr]: 121.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 608/1000 time [yr]: 121.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 609/1000 time [yr]: 121.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 610/1000 time [yr]: 122.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 611/1000 time [yr]: 122.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 612/1000 time [yr]: 122.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 613/1000 time [yr]: 122.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 614/1000 time [yr]: 122.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 615/1000 time [yr]: 123.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 616/1000 time [yr]: 123.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 617/1000 time [yr]: 123.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 618/1000 time [yr]: 123.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 619/1000 time [yr]: 123.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 620/1000 time [yr]: 124.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 621/1000 time [yr]: 124.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 622/1000 time [yr]: 124.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 623/1000 time [yr]: 124.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 624/1000 time [yr]: 124.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 625/1000 time [yr]: 125.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 626/1000 time [yr]: 125.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 627/1000 time [yr]: 125.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 628/1000 time [yr]: 125.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 629/1000 time [yr]: 125.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 630/1000 time [yr]: 126.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 631/1000 time [yr]: 126.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 632/1000 time [yr]: 126.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 633/1000 time [yr]: 126.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 634/1000 time [yr]: 126.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 635/1000 time [yr]: 127.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 636/1000 time [yr]: 127.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 637/1000 time [yr]: 127.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 638/1000 time [yr]: 127.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 639/1000 time [yr]: 127.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 640/1000 time [yr]: 128.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 641/1000 time [yr]: 128.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 642/1000 time [yr]: 128.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 643/1000 time [yr]: 128.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 644/1000 time [yr]: 128.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 645/1000 time [yr]: 129.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 646/1000 time [yr]: 129.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 647/1000 time [yr]: 129.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 648/1000 time [yr]: 129.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 649/1000 time [yr]: 129.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 650/1000 time [yr]: 130.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 651/1000 time [yr]: 130.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 652/1000 time [yr]: 130.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 653/1000 time [yr]: 130.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 654/1000 time [yr]: 130.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 655/1000 time [yr]: 131.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 656/1000 time [yr]: 131.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 657/1000 time [yr]: 131.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 658/1000 time [yr]: 131.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 659/1000 time [yr]: 131.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 660/1000 time [yr]: 132.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 661/1000 time [yr]: 132.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 662/1000 time [yr]: 132.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 663/1000 time [yr]: 132.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 664/1000 time [yr]: 132.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 665/1000 time [yr]: 133.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 666/1000 time [yr]: 133.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 667/1000 time [yr]: 133.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 668/1000 time [yr]: 133.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 669/1000 time [yr]: 133.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 670/1000 time [yr]: 134.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 671/1000 time [yr]: 134.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 672/1000 time [yr]: 134.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 673/1000 time [yr]: 134.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 674/1000 time [yr]: 134.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 675/1000 time [yr]: 135.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 676/1000 time [yr]: 135.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 677/1000 time [yr]: 135.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 678/1000 time [yr]: 135.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 679/1000 time [yr]: 135.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 680/1000 time [yr]: 136.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 681/1000 time [yr]: 136.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 682/1000 time [yr]: 136.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 683/1000 time [yr]: 136.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 684/1000 time [yr]: 136.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 685/1000 time [yr]: 137.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 686/1000 time [yr]: 137.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 687/1000 time [yr]: 137.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 688/1000 time [yr]: 137.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 689/1000 time [yr]: 137.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 690/1000 time [yr]: 138.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 691/1000 time [yr]: 138.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 692/1000 time [yr]: 138.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 693/1000 time [yr]: 138.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 694/1000 time [yr]: 138.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 695/1000 time [yr]: 139.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 696/1000 time [yr]: 139.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 697/1000 time [yr]: 139.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 698/1000 time [yr]: 139.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 699/1000 time [yr]: 139.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 700/1000 time [yr]: 140.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 701/1000 time [yr]: 140.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 702/1000 time [yr]: 140.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 703/1000 time [yr]: 140.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 704/1000 time [yr]: 140.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 705/1000 time [yr]: 141.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 706/1000 time [yr]: 141.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 707/1000 time [yr]: 141.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 708/1000 time [yr]: 141.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 709/1000 time [yr]: 141.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 710/1000 time [yr]: 142.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 711/1000 time [yr]: 142.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 712/1000 time [yr]: 142.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 713/1000 time [yr]: 142.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 714/1000 time [yr]: 142.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 715/1000 time [yr]: 143.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 716/1000 time [yr]: 143.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 717/1000 time [yr]: 143.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 718/1000 time [yr]: 143.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 719/1000 time [yr]: 143.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 720/1000 time [yr]: 144.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 721/1000 time [yr]: 144.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 722/1000 time [yr]: 144.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 723/1000 time [yr]: 144.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 724/1000 time [yr]: 144.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 725/1000 time [yr]: 145.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 726/1000 time [yr]: 145.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 727/1000 time [yr]: 145.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 728/1000 time [yr]: 145.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 729/1000 time [yr]: 145.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 730/1000 time [yr]: 146.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 731/1000 time [yr]: 146.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 732/1000 time [yr]: 146.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 733/1000 time [yr]: 146.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 734/1000 time [yr]: 146.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 735/1000 time [yr]: 147.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 736/1000 time [yr]: 147.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 737/1000 time [yr]: 147.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 738/1000 time [yr]: 147.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 739/1000 time [yr]: 147.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 740/1000 time [yr]: 148.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 741/1000 time [yr]: 148.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 742/1000 time [yr]: 148.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 743/1000 time [yr]: 148.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 744/1000 time [yr]: 148.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 745/1000 time [yr]: 149.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 746/1000 time [yr]: 149.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 747/1000 time [yr]: 149.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 748/1000 time [yr]: 149.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 749/1000 time [yr]: 149.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 750/1000 time [yr]: 150.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 751/1000 time [yr]: 150.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 752/1000 time [yr]: 150.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 753/1000 time [yr]: 150.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 754/1000 time [yr]: 150.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 755/1000 time [yr]: 151.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 756/1000 time [yr]: 151.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 757/1000 time [yr]: 151.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 758/1000 time [yr]: 151.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 759/1000 time [yr]: 151.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 760/1000 time [yr]: 152.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 761/1000 time [yr]: 152.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 762/1000 time [yr]: 152.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 763/1000 time [yr]: 152.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 764/1000 time [yr]: 152.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 765/1000 time [yr]: 153.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 766/1000 time [yr]: 153.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 767/1000 time [yr]: 153.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 768/1000 time [yr]: 153.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 769/1000 time [yr]: 153.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 770/1000 time [yr]: 154.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 771/1000 time [yr]: 154.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 772/1000 time [yr]: 154.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 773/1000 time [yr]: 154.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 774/1000 time [yr]: 154.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 775/1000 time [yr]: 155.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 776/1000 time [yr]: 155.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 777/1000 time [yr]: 155.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 778/1000 time [yr]: 155.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 779/1000 time [yr]: 155.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 780/1000 time [yr]: 156.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 781/1000 time [yr]: 156.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 782/1000 time [yr]: 156.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 783/1000 time [yr]: 156.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 784/1000 time [yr]: 156.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 785/1000 time [yr]: 157.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 786/1000 time [yr]: 157.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 787/1000 time [yr]: 157.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 788/1000 time [yr]: 157.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 789/1000 time [yr]: 157.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 790/1000 time [yr]: 158.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 791/1000 time [yr]: 158.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 792/1000 time [yr]: 158.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 793/1000 time [yr]: 158.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 794/1000 time [yr]: 158.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 795/1000 time [yr]: 159.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 796/1000 time [yr]: 159.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 797/1000 time [yr]: 159.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 798/1000 time [yr]: 159.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 799/1000 time [yr]: 159.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 800/1000 time [yr]: 160.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 801/1000 time [yr]: 160.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 802/1000 time [yr]: 160.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 803/1000 time [yr]: 160.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 804/1000 time [yr]: 160.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 805/1000 time [yr]: 161.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 806/1000 time [yr]: 161.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 807/1000 time [yr]: 161.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 808/1000 time [yr]: 161.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 809/1000 time [yr]: 161.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 810/1000 time [yr]: 162.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 811/1000 time [yr]: 162.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 812/1000 time [yr]: 162.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 813/1000 time [yr]: 162.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 814/1000 time [yr]: 162.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 815/1000 time [yr]: 163.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 816/1000 time [yr]: 163.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 817/1000 time [yr]: 163.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 818/1000 time [yr]: 163.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 819/1000 time [yr]: 163.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 820/1000 time [yr]: 164.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 821/1000 time [yr]: 164.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 822/1000 time [yr]: 164.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 823/1000 time [yr]: 164.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 824/1000 time [yr]: 164.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 825/1000 time [yr]: 165.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 826/1000 time [yr]: 165.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 827/1000 time [yr]: 165.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 828/1000 time [yr]: 165.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 829/1000 time [yr]: 165.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 830/1000 time [yr]: 166.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 831/1000 time [yr]: 166.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 832/1000 time [yr]: 166.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 833/1000 time [yr]: 166.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 834/1000 time [yr]: 166.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 835/1000 time [yr]: 167.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 836/1000 time [yr]: 167.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 837/1000 time [yr]: 167.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 838/1000 time [yr]: 167.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 839/1000 time [yr]: 167.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 840/1000 time [yr]: 168.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 841/1000 time [yr]: 168.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 842/1000 time [yr]: 168.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 843/1000 time [yr]: 168.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 844/1000 time [yr]: 168.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 845/1000 time [yr]: 169.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 846/1000 time [yr]: 169.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 847/1000 time [yr]: 169.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 848/1000 time [yr]: 169.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 849/1000 time [yr]: 169.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 850/1000 time [yr]: 170.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 851/1000 time [yr]: 170.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 852/1000 time [yr]: 170.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 853/1000 time [yr]: 170.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 854/1000 time [yr]: 170.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 855/1000 time [yr]: 171.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 856/1000 time [yr]: 171.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 857/1000 time [yr]: 171.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 858/1000 time [yr]: 171.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 859/1000 time [yr]: 171.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 860/1000 time [yr]: 172.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 861/1000 time [yr]: 172.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 862/1000 time [yr]: 172.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 863/1000 time [yr]: 172.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 864/1000 time [yr]: 172.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 865/1000 time [yr]: 173.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 866/1000 time [yr]: 173.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 867/1000 time [yr]: 173.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 868/1000 time [yr]: 173.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 869/1000 time [yr]: 173.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 870/1000 time [yr]: 174.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 871/1000 time [yr]: 174.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 872/1000 time [yr]: 174.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 873/1000 time [yr]: 174.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 874/1000 time [yr]: 174.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 875/1000 time [yr]: 175.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 876/1000 time [yr]: 175.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 877/1000 time [yr]: 175.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 878/1000 time [yr]: 175.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 879/1000 time [yr]: 175.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 880/1000 time [yr]: 176.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 881/1000 time [yr]: 176.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 882/1000 time [yr]: 176.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 883/1000 time [yr]: 176.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 884/1000 time [yr]: 176.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 885/1000 time [yr]: 177.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 886/1000 time [yr]: 177.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 887/1000 time [yr]: 177.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 888/1000 time [yr]: 177.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 889/1000 time [yr]: 177.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 890/1000 time [yr]: 178.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 891/1000 time [yr]: 178.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 892/1000 time [yr]: 178.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 893/1000 time [yr]: 178.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 894/1000 time [yr]: 178.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 895/1000 time [yr]: 179.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 896/1000 time [yr]: 179.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 897/1000 time [yr]: 179.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 898/1000 time [yr]: 179.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 899/1000 time [yr]: 179.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 900/1000 time [yr]: 180.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 901/1000 time [yr]: 180.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 902/1000 time [yr]: 180.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 903/1000 time [yr]: 180.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 904/1000 time [yr]: 180.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 905/1000 time [yr]: 181.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 906/1000 time [yr]: 181.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 907/1000 time [yr]: 181.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 908/1000 time [yr]: 181.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 909/1000 time [yr]: 181.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 910/1000 time [yr]: 182.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 911/1000 time [yr]: 182.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 912/1000 time [yr]: 182.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 913/1000 time [yr]: 182.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 914/1000 time [yr]: 182.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 915/1000 time [yr]: 183.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 916/1000 time [yr]: 183.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 917/1000 time [yr]: 183.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 918/1000 time [yr]: 183.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 919/1000 time [yr]: 183.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 920/1000 time [yr]: 184.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 921/1000 time [yr]: 184.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 922/1000 time [yr]: 184.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 923/1000 time [yr]: 184.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 924/1000 time [yr]: 184.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 925/1000 time [yr]: 185.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 926/1000 time [yr]: 185.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 927/1000 time [yr]: 185.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 928/1000 time [yr]: 185.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 929/1000 time [yr]: 185.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 930/1000 time [yr]: 186.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 931/1000 time [yr]: 186.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 932/1000 time [yr]: 186.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 933/1000 time [yr]: 186.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 934/1000 time [yr]: 186.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 935/1000 time [yr]: 187.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 936/1000 time [yr]: 187.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 937/1000 time [yr]: 187.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 938/1000 time [yr]: 187.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 939/1000 time [yr]: 187.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 940/1000 time [yr]: 188.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 941/1000 time [yr]: 188.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 942/1000 time [yr]: 188.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 943/1000 time [yr]: 188.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 944/1000 time [yr]: 188.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 945/1000 time [yr]: 189.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 946/1000 time [yr]: 189.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 947/1000 time [yr]: 189.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 948/1000 time [yr]: 189.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 949/1000 time [yr]: 189.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 950/1000 time [yr]: 190.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 951/1000 time [yr]: 190.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 952/1000 time [yr]: 190.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 953/1000 time [yr]: 190.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 954/1000 time [yr]: 190.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 955/1000 time [yr]: 191.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 956/1000 time [yr]: 191.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 957/1000 time [yr]: 191.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 958/1000 time [yr]: 191.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 959/1000 time [yr]: 191.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 960/1000 time [yr]: 192.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 961/1000 time [yr]: 192.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 962/1000 time [yr]: 192.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 963/1000 time [yr]: 192.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 964/1000 time [yr]: 192.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 965/1000 time [yr]: 193.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 966/1000 time [yr]: 193.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 967/1000 time [yr]: 193.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 968/1000 time [yr]: 193.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 969/1000 time [yr]: 193.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 970/1000 time [yr]: 194.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 971/1000 time [yr]: 194.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 972/1000 time [yr]: 194.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 973/1000 time [yr]: 194.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 974/1000 time [yr]: 194.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 975/1000 time [yr]: 195.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 976/1000 time [yr]: 195.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 977/1000 time [yr]: 195.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 978/1000 time [yr]: 195.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 979/1000 time [yr]: 195.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 980/1000 time [yr]: 196.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 981/1000 time [yr]: 196.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 982/1000 time [yr]: 196.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 983/1000 time [yr]: 196.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 984/1000 time [yr]: 196.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 985/1000 time [yr]: 197.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 986/1000 time [yr]: 197.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 987/1000 time [yr]: 197.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 988/1000 time [yr]: 197.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 989/1000 time [yr]: 197.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 990/1000 time [yr]: 198.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 991/1000 time [yr]: 198.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 992/1000 time [yr]: 198.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 993/1000 time [yr]: 198.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 994/1000 time [yr]: 198.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 995/1000 time [yr]: 199.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 996/1000 time [yr]: 199.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 997/1000 time [yr]: 199.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 998/1000 time [yr]: 199.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 999/1000 time [yr]: 199.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 1000/1000 time [yr]: 200.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 200 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 200 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.134075 Total Core solution elapsed time: 483.657 Linear solver elapsed time: 292.438 (60%) Total elapsed time: 0 hrs 8 min 3 sec loading results from cluster SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Greenland +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 6345 Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating surface and bedrock Constructing thickness Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions Set geothermal heat flux Set Pressure Single point constraints Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 59172.79 | 7092.887 52079.9 6.085212e-32 x = 1 | f(x) = 50954.87 | 3600.244 47354.58 0.04587451 ====================== step 2/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 50953.45 | 3598.809 47354.6 0.04587451 x = 1 | f(x) = 44978.74 | 2137.679 42840.82 0.2370654 ====================== step 3/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 44987.02 | 2146.197 42840.58 0.2370654 x = 1 | f(x) = 44425.8 | 2044.873 42380.66 0.2722667 ====================== step 4/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 44432.36 | 2051.851 42380.24 0.2722667 x = 1 | f(x) = 42775.97 | 1747.394 41028.16 0.4148691 ====================== step 5/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 42783.98 | 1756.726 41026.84 0.4148691 x = 1 | f(x) = 41876.1 | 1659.336 40216.23 0.5302616 ====================== step 6/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 41885.98 | 1670.347 40215.1 0.5302616 x = 1 | f(x) = 40869.39 | 1561.173 39307.52 0.6932322 ====================== step 7/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 40870.91 | 1563.273 39306.95 0.6932322 x = 1 | f(x) = 39697.76 | 1338.256 38358.58 0.9236775 ====================== step 8/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39697.43 | 1338.655 38357.85 0.9236775 x = 1 | f(x) = 39040.22 | 1208.675 37830.47 1.071791 ====================== step 9/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39039.49 | 1208.558 37829.86 1.071791 x = 1 | f(x) = 38556.09 | 1126.764 37428.13 1.191478 ====================== step 10/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38552.98 | 1124.507 37427.28 1.191478 x = 1 | f(x) = 38121.56 | 1092.495 37027.74 1.3288 ====================== step 11/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38122.77 | 1094.958 37026.49 1.3288 x = 1 | f(x) = 37729.41 | 1149.628 36578.29 1.493932 ====================== step 12/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37740.46 | 1159.142 36579.82 1.493932 x = 1 | f(x) = 37487.92 | 1087.186 36399.14 1.592633 x = 0.381966 | f(x) = 37611.19 | 1112.303 36497.36 1.529775 x = 0.618034 | f(x) = 37561.1 | 1101.089 36458.46 1.55338 x = 0.763932 | f(x) = 37530.94 | 1093.798 36435.58 1.568476 x = 0.854102 | f(x) = 37512.65 | 1089.499 36421.58 1.577683 x = 0.90983 | f(x) = 37501.45 | 1086.979 36412.88 1.583344 ====================== step 13/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37484.86 | 1084.592 36398.67 1.592633 x = 1 | f(x) = 37022.46 | 1018.285 36002.41 1.768007 ====================== step 14/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37030.9 | 1026.085 36003.05 1.768007 x = 1 | f(x) = 36814.89 | 1058.135 35754.9 1.859438 x = 0.381966 | f(x) = 36898.13 | 989.5907 35906.74 1.799676 x = 0.618034 | f(x) = 36853.98 | 1003.884 35848.28 1.821225 x = 0.763932 | f(x) = 36838.62 | 1025.038 35811.75 1.835325 x = 0.937069 | f(x) = 36824.08 | 1052.478 35769.75 1.852853 x = 0.870937 | f(x) = 36839.21 | 1051.966 35785.4 1.846056 ====================== step 15/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36824.8 | 1068.389 35754.55 1.859438 x = 1 | f(x) = 36559.07 | 954.0377 35603.09 1.936544 x = 0.381966 | f(x) = 36711.5 | 1017.403 35692.21 1.887487 x = 0.618034 | f(x) = 36653.71 | 995.7569 35656.05 1.905392 x = 0.763932 | f(x) = 36614.76 | 978.0481 35634.8 1.916939 x = 0.854102 | f(x) = 36589.85 | 965.9689 35621.95 1.92432 x = 0.90983 | f(x) = 36574.06 | 958.1749 35613.95 1.928974 ====================== step 16/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36552.27 | 948.6767 35601.65 1.936544 x = 1 | f(x) = 36368.74 | 909.4905 35457.24 2.009954 x = 0.381966 | f(x) = 36450.66 | 912.2196 35536.48 1.964688 x = 0.618034 | f(x) = 36415.28 | 905.8741 35507.42 1.981913 x = 0.763932 | f(x) = 36394.68 | 904.2792 35488.41 1.992565 x = 0.854102 | f(x) = 36384.31 | 906.0028 35476.31 1.999281 x = 0.90983 | f(x) = 36379.73 | 908.9319 35468.79 2.003357 ====================== step 17/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36373.34 | 914.7542 35456.58 2.009954 x = 1 | f(x) = 36229.12 | 957.6674 35269.34 2.111313 x = 0.381966 | f(x) = 36289.06 | 905.1848 35381.82 2.046875 x = 0.618034 | f(x) = 36257.86 | 916.5034 35339.28 2.070593 x = 0.763932 | f(x) = 36247.49 | 932.6872 35312.72 2.085785 x = 0.913021 | f(x) = 36239.38 | 951.6387 35285.64 2.101794 x = 0.856074 | f(x) = 36249.62 | 951.977 35295.55 2.095621 ====================== step 18/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36238.23 | 966.1893 35269.93 2.111313 x = 1 | f(x) = 36005.81 | 893.306 35110.31 2.18899 x = 0.381966 | f(x) = 36142.54 | 929.6447 35210.76 2.139784 x = 0.618034 | f(x) = 36093.23 | 916.1558 35174.92 2.158128 x = 0.763932 | f(x) = 36058.58 | 905.5225 35150.89 2.16975 x = 0.854102 | f(x) = 36036.9 | 898.7214 35136 2.177043 x = 0.90983 | f(x) = 36023.73 | 894.6151 35126.93 2.18159 ====================== step 19/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36005.22 | 890.2107 35112.82 2.18899 x = 1 | f(x) = 35868.42 | 869.9581 34996.18 2.287732 x = 0.381966 | f(x) = 35911.39 | 860.1821 35048.98 2.225541 x = 0.618034 | f(x) = 35893.04 | 858.0691 35032.72 2.249067 x = 0.763932 | f(x) = 35881.94 | 859.7353 35019.94 2.263658 x = 0.854102 | f(x) = 35877.04 | 863.763 35011.01 2.272799 x = 0.90983 | f(x) = 35875.47 | 868.0771 35005.11 2.278502 ====================== step 20/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35873.35 | 875.6681 34995.4 2.287732 x = 1 | f(x) = 35723.35 | 910.5513 34810.43 2.374027 x = 0.381966 | f(x) = 35789.66 | 860.5594 34926.79 2.319061 x = 0.618034 | f(x) = 35757.04 | 868.789 34885.91 2.339232 x = 0.763932 | f(x) = 35744.03 | 883.7317 34857.95 2.352231 x = 0.854102 | f(x) = 35739.94 | 897.5494 34840.03 2.360435 x = 0.930997 | f(x) = 35737.52 | 910.28 34824.87 2.367548 ====================== step 21/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35735.84 | 922.2347 34811.23 2.374027 x = 1 | f(x) = 35602.51 | 870.7784 34729.3 2.423398 x = 0.381966 | f(x) = 35668.82 | 880.0971 34786.33 2.391628 x = 0.618034 | f(x) = 35644.9 | 872.7159 34769.79 2.403223 x = 0.763932 | f(x) = 35629.08 | 870.0702 34756.6 2.410606 x = 0.854102 | f(x) = 35618.25 | 868.4465 34747.39 2.415368 x = 0.90983 | f(x) = 35610.89 | 867.4925 34740.98 2.418388 ====================== step 22/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35599.85 | 867.5045 34729.92 2.423398 x = 1 | f(x) = 35435.33 | 841.7746 34591.04 2.515761 x = 0.381966 | f(x) = 35503.09 | 830.83 34669.81 2.457304 x = 0.618034 | f(x) = 35463.09 | 825.8312 34634.77 2.479098 x = 0.763932 | f(x) = 35440.81 | 828.0732 34610.24 2.492898 x = 0.854102 | f(x) = 35432.56 | 834.5397 34595.51 2.501553 x = 0.90983 | f(x) = 35438.35 | 841.9242 34593.91 2.50695 ====================== step 23/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35439.26 | 840.4865 34596.27 2.501553 x = 1 | f(x) = 35377.76 | 827.9225 34547.29 2.55107 x = 0.381966 | f(x) = 35416.76 | 819.8319 34594.41 2.518729 x = 0.618034 | f(x) = 35399.79 | 819.4099 34577.85 2.530419 x = 0.763932 | f(x) = 35393.8 | 822.2267 34569.04 2.538053 x = 0.944314 | f(x) = 35386.99 | 828.3335 34556.1 2.547926 x = 0.875414 | f(x) = 35393.31 | 829.0399 34561.73 2.544098 ====================== step 24/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35389.05 | 833.3284 34553.17 2.55107 x = 1 | f(x) = 35252.08 | 814.3328 34435.1 2.649675 x = 0.381966 | f(x) = 35317.08 | 812.978 34501.52 2.588144 x = 0.618034 | f(x) = 35288.37 | 809.7173 34476.04 2.611631 x = 0.763932 | f(x) = 35271.33 | 809.3561 34459.34 2.626304 x = 0.854102 | f(x) = 35263.63 | 811.1877 34449.81 2.63523 x = 0.90983 | f(x) = 35260.58 | 813.8445 34444.09 2.640724 ====================== step 25/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35256.61 | 818.8748 34435.09 2.649675 x = 1 | f(x) = 35162.53 | 858.2925 34301.5 2.735677 x = 0.381966 | f(x) = 35180.62 | 812.9347 34365.01 2.680865 x = 0.618034 | f(x) = 35153.13 | 821.9692 34328.46 2.701322 x = 0.763932 | f(x) = 35158.4 | 837.0542 34318.64 2.714146 x = 0.645762 | f(x) = 35167.63 | 833.3942 34331.53 2.703728 x = 0.527864 | f(x) = 35170.22 | 824.2449 34343.28 2.693583 ====================== step 26/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35160.91 | 827.0912 34331.12 2.701322 x = 1 | f(x) = 35121.46 | 799.6828 34319.05 2.727671 x = 0.381966 | f(x) = 35148.31 | 811.7233 34333.88 2.710519 x = 0.618034 | f(x) = 35139.87 | 807.589 34329.56 2.716728 x = 0.763932 | f(x) = 35133.07 | 803.7518 34326.59 2.720777 x = 0.854102 | f(x) = 35127.95 | 801.0165 34324.22 2.72336 x = 0.90983 | f(x) = 35124.32 | 799.2103 34322.38 2.724988 ====================== step 27/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35118.96 | 797.3021 34318.93 2.727671 x = 1 | f(x) = 34992.01 | 809.2473 34179.93 2.832755 x = 0.381966 | f(x) = 35054.02 | 790.9423 34260.31 2.76623 x = 0.618034 | f(x) = 35029.17 | 793.4469 34232.94 2.790934 x = 0.763932 | f(x) = 35015.09 | 799.2231 34213.06 2.806639 x = 0.854102 | f(x) = 35009.09 | 806.1058 34200.16 2.816511 x = 0.90983 | f(x) = 35007.38 | 812.5981 34191.96 2.822676 ====================== step 28/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35004.31 | 822.0413 34179.44 2.832755 x = 1 | f(x) = 34934.86 | 806.5672 34125.43 2.869517 x = 0.381966 | f(x) = 34947.16 | 786.779 34157.54 2.846475 x = 0.618034 | f(x) = 34937.13 | 788.8925 34145.38 2.855052 x = 0.763932 | f(x) = 34935.7 | 795.0414 34137.8 2.86046 x = 0.748005 | f(x) = 34937.94 | 796.5456 34138.53 2.859865 x = 0.854102 | f(x) = 34938.57 | 802.5723 34133.13 2.863866 ====================== step 29/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34941.29 | 812.7676 34125.65 2.869517 x = 1 | f(x) = 34824.77 | 779.5759 34042.26 2.935703 x = 0.381966 | f(x) = 34880.02 | 788.1483 34088.98 2.894443 x = 0.618034 | f(x) = 34858.6 | 784.1169 34071.57 2.910025 x = 0.763932 | f(x) = 34843.88 | 780.8713 34060.09 2.919808 x = 0.854102 | f(x) = 34835.32 | 779.3892 34053.01 2.925901 x = 0.90983 | f(x) = 34830.73 | 779.0444 34048.76 2.929628 ====================== step 30/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34824.9 | 779.6846 34042.28 2.935703 x = 1 | f(x) = 34721.73 | 773.822 33944.9 3.012811 x = 0.381966 | f(x) = 34777.77 | 771.9934 34002.82 2.964715 x = 0.618034 | f(x) = 34756.76 | 772.5215 33981.25 2.983084 x = 0.763932 | f(x) = 34743.45 | 772.8092 33967.65 2.994365 x = 0.854102 | f(x) = 34735.33 | 773.2061 33959.12 3.001403 x = 0.90983 | f(x) = 34730.47 | 773.6076 33953.86 3.005764 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.103799 Total Core solution elapsed time: 72.6298 Linear solver elapsed time: 42.4692 (58%) Total elapsed time: 0 hrs 1 min 12 sec loading results from cluster Step 4: Transient run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/100 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.35321e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 41.371 > 1 % Convergence criterion: norm(du)/norm(u) 63.1691 > 10 % Convergence criterion: max(du) 0.000157028 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68995e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 3.67351 > 1 % Convergence criterion: norm(du)/norm(u) 7.15747 < 10 % Convergence criterion: max(du) 8.86618e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57465e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 1.10917 > 1 % Convergence criterion: norm(du)/norm(u) 2.86495 < 10 % Convergence criterion: max(du) 5.14918e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56632e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.445154 < 1 % Convergence criterion: norm(du)/norm(u) 1.23492 < 10 % Convergence criterion: max(du) 2.12087e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 4 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73084e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/100 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.4967e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.39976 < 1 % Convergence criterion: norm(du)/norm(u) 13.1949 > 10 % Convergence criterion: max(du) 3.38382e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.43547e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.111052 < 1 % Convergence criterion: norm(du)/norm(u) 3.36488 < 10 % Convergence criterion: max(du) 9.83478e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75447e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 3/100 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5492e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.271725 < 1 % Convergence criterion: norm(du)/norm(u) 11.1922 > 10 % Convergence criterion: max(du) 3.27298e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68827e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.076041 < 1 % Convergence criterion: norm(du)/norm(u) 3.86714 < 10 % Convergence criterion: max(du) 1.51084e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63022e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 4/100 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53624e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.213592 < 1 % Convergence criterion: norm(du)/norm(u) 12.8782 > 10 % Convergence criterion: max(du) 4.34484e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57948e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0615855 < 1 % Convergence criterion: norm(du)/norm(u) 4.90592 < 10 % Convergence criterion: max(du) 2.25843e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96115e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 5/100 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61796e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.17981 < 1 % Convergence criterion: norm(du)/norm(u) 13.2234 > 10 % Convergence criterion: max(du) 4.70975e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42004e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0519116 < 1 % Convergence criterion: norm(du)/norm(u) 5.45856 < 10 % Convergence criterion: max(du) 2.79461e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01637e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/100 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71241e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.158264 < 1 % Convergence criterion: norm(du)/norm(u) 11.3871 > 10 % Convergence criterion: max(du) 4.73377e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.6047e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0451186 < 1 % Convergence criterion: norm(du)/norm(u) 4.9933 < 10 % Convergence criterion: max(du) 2.80978e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76956e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 7/100 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62739e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.143012 < 1 % Convergence criterion: norm(du)/norm(u) 8.5021 < 10 % Convergence criterion: max(du) 4.06839e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65489e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 8/100 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61133e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.153015 < 1 % Convergence criterion: norm(du)/norm(u) 7.82695 < 10 % Convergence criterion: max(du) 4.16499e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79232e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 9/100 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67285e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.148855 < 1 % Convergence criterion: norm(du)/norm(u) 6.42596 < 10 % Convergence criterion: max(du) 3.71476e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70656e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 10/100 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.4712e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.14179 < 1 % Convergence criterion: norm(du)/norm(u) 5.02037 < 10 % Convergence criterion: max(du) 3.04604e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87946e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/100 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.34992e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.135019 < 1 % Convergence criterion: norm(du)/norm(u) 3.8637 < 10 % Convergence criterion: max(du) 2.37104e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.02238e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 12/100 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.46763e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.129411 < 1 % Convergence criterion: norm(du)/norm(u) 3.00068 < 10 % Convergence criterion: max(du) 1.79943e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67153e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 13/100 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.66677e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.124912 < 1 % Convergence criterion: norm(du)/norm(u) 2.38986 < 10 % Convergence criterion: max(du) 1.36478e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76987e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 14/100 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48017e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.121222 < 1 % Convergence criterion: norm(du)/norm(u) 1.9658 < 10 % Convergence criterion: max(du) 1.05699e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.80775e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 15/100 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55525e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.118073 < 1 % Convergence criterion: norm(du)/norm(u) 1.66967 < 10 % Convergence criterion: max(du) 9.13355e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01437e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/100 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62123e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.115283 < 1 % Convergence criterion: norm(du)/norm(u) 1.457 < 10 % Convergence criterion: max(du) 8.17367e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59905e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 17/100 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51425e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.112745 < 1 % Convergence criterion: norm(du)/norm(u) 1.29694 < 10 % Convergence criterion: max(du) 7.33618e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98679e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 18/100 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49577e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.110392 < 1 % Convergence criterion: norm(du)/norm(u) 1.17077 < 10 % Convergence criterion: max(du) 6.60726e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98144e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 19/100 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.43684e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.108194 < 1 % Convergence criterion: norm(du)/norm(u) 1.06712 < 10 % Convergence criterion: max(du) 5.97275e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 20/100 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.7408e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.106124 < 1 % Convergence criterion: norm(du)/norm(u) 0.979212 < 10 % Convergence criterion: max(du) 5.42071e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85556e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/100 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75364e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.104165 < 1 % Convergence criterion: norm(du)/norm(u) 0.903128 < 10 % Convergence criterion: max(du) 4.94322e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.53554e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 22/100 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.80603e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.102305 < 1 % Convergence criterion: norm(du)/norm(u) 0.83632 < 10 % Convergence criterion: max(du) 4.52667e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.7517e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 23/100 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54097e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.100536 < 1 % Convergence criterion: norm(du)/norm(u) 0.777485 < 10 % Convergence criterion: max(du) 4.16576e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 24/100 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67224e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0988582 < 1 % Convergence criterion: norm(du)/norm(u) 0.725694 < 10 % Convergence criterion: max(du) 3.8535e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.01409e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 25/100 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68981e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0972599 < 1 % Convergence criterion: norm(du)/norm(u) 0.680774 < 10 % Convergence criterion: max(du) 3.58314e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.21946e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/100 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51444e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0957355 < 1 % Convergence criterion: norm(du)/norm(u) 0.641499 < 10 % Convergence criterion: max(du) 3.34844e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78816e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 27/100 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72985e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0942812 < 1 % Convergence criterion: norm(du)/norm(u) 0.606834 < 10 % Convergence criterion: max(du) 3.14377e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.89247e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 28/100 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.46119e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0928908 < 1 % Convergence criterion: norm(du)/norm(u) 0.576063 < 10 % Convergence criterion: max(du) 2.96418e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.29297e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 29/100 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48574e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0915596 < 1 % Convergence criterion: norm(du)/norm(u) 0.548621 < 10 % Convergence criterion: max(du) 2.8054e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.60513e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 30/100 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63903e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0902826 < 1 % Convergence criterion: norm(du)/norm(u) 0.523982 < 10 % Convergence criterion: max(du) 2.66382e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72195e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/100 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.77931e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0890553 < 1 % Convergence criterion: norm(du)/norm(u) 0.501671 < 10 % Convergence criterion: max(du) 2.53643e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 32/100 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60988e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0878745 < 1 % Convergence criterion: norm(du)/norm(u) 0.481518 < 10 % Convergence criterion: max(du) 2.42275e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.18685e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 33/100 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57315e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.086737 < 1 % Convergence criterion: norm(du)/norm(u) 0.462906 < 10 % Convergence criterion: max(du) 2.3173e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6803e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 34/100 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.6731e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0856396 < 1 % Convergence criterion: norm(du)/norm(u) 0.445731 < 10 % Convergence criterion: max(du) 2.21987e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94409e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 35/100 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.497e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0845798 < 1 % Convergence criterion: norm(du)/norm(u) 0.429883 < 10 % Convergence criterion: max(du) 2.1297e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86089e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/100 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.47188e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0835546 < 1 % Convergence criterion: norm(du)/norm(u) 0.415204 < 10 % Convergence criterion: max(du) 2.04545e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9039e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 37/100 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41713e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0825623 < 1 % Convergence criterion: norm(du)/norm(u) 0.401602 < 10 % Convergence criterion: max(du) 1.96616e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94496e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 38/100 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.44243e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0816006 < 1 % Convergence criterion: norm(du)/norm(u) 0.38893 < 10 % Convergence criterion: max(du) 1.89116e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91889e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 39/100 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.45587e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0806678 < 1 % Convergence criterion: norm(du)/norm(u) 0.377114 < 10 % Convergence criterion: max(du) 1.81993e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86173e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 40/100 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.70223e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0797625 < 1 % Convergence criterion: norm(du)/norm(u) 0.366039 < 10 % Convergence criterion: max(du) 1.7521e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.28797e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/100 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49693e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0788836 < 1 % Convergence criterion: norm(du)/norm(u) 0.355635 < 10 % Convergence criterion: max(du) 1.68725e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86968e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 42/100 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5884e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0780298 < 1 % Convergence criterion: norm(du)/norm(u) 0.345806 < 10 % Convergence criterion: max(du) 1.62529e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72358e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 43/100 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62933e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0772003 < 1 % Convergence criterion: norm(du)/norm(u) 0.336508 < 10 % Convergence criterion: max(du) 1.56611e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98662e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 44/100 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.40564e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0763939 < 1 % Convergence criterion: norm(du)/norm(u) 0.327688 < 10 % Convergence criterion: max(du) 1.50945e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75023e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 45/100 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55327e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0756099 < 1 % Convergence criterion: norm(du)/norm(u) 0.319299 < 10 % Convergence criterion: max(du) 1.45514e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.64018e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/100 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60315e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0748474 < 1 % Convergence criterion: norm(du)/norm(u) 0.311269 < 10 % Convergence criterion: max(du) 1.40306e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.08434e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 47/100 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.3523e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0741054 < 1 % Convergence criterion: norm(du)/norm(u) 0.30362 < 10 % Convergence criterion: max(du) 1.37128e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.05146e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 48/100 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.58931e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0733832 < 1 % Convergence criterion: norm(du)/norm(u) 0.296271 < 10 % Convergence criterion: max(du) 1.34222e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90273e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 49/100 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60218e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0726804 < 1 % Convergence criterion: norm(du)/norm(u) 0.289265 < 10 % Convergence criterion: max(du) 1.31406e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.10161e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 50/100 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53589e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0719966 < 1 % Convergence criterion: norm(du)/norm(u) 0.282562 < 10 % Convergence criterion: max(du) 1.28675e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98419e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/100 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71751e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0713312 < 1 % Convergence criterion: norm(du)/norm(u) 0.276132 < 10 % Convergence criterion: max(du) 1.26026e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59434e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 52/100 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.51876e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.07068 < 1 % Convergence criterion: norm(du)/norm(u) 0.267372 < 10 % Convergence criterion: max(du) 1.21537e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 53/100 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41716e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0700462 < 1 % Convergence criterion: norm(du)/norm(u) 0.258625 < 10 % Convergence criterion: max(du) 1.16725e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.21846e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 54/100 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.50032e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0694297 < 1 % Convergence criterion: norm(du)/norm(u) 0.250199 < 10 % Convergence criterion: max(du) 1.1193e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63943e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 55/100 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55367e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0688301 < 1 % Convergence criterion: norm(du)/norm(u) 0.24214 < 10 % Convergence criterion: max(du) 1.07263e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.14474e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/100 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56291e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0682468 < 1 % Convergence criterion: norm(du)/norm(u) 0.234435 < 10 % Convergence criterion: max(du) 1.02752e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94983e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 57/100 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60696e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0676789 < 1 % Convergence criterion: norm(du)/norm(u) 0.227053 < 10 % Convergence criterion: max(du) 9.84042e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94976e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 58/100 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72249e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0671252 < 1 % Convergence criterion: norm(du)/norm(u) 0.21997 < 10 % Convergence criterion: max(du) 9.42131e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96489e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 59/100 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.59814e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.066585 < 1 % Convergence criterion: norm(du)/norm(u) 0.213146 < 10 % Convergence criterion: max(du) 9.01718e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.15981e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 60/100 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5624e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0660572 < 1 % Convergence criterion: norm(du)/norm(u) 0.206596 < 10 % Convergence criterion: max(du) 8.62727e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61067e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/100 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5908e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0655407 < 1 % Convergence criterion: norm(du)/norm(u) 0.200281 < 10 % Convergence criterion: max(du) 8.25088e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83494e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 62/100 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.38579e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0650343 < 1 % Convergence criterion: norm(du)/norm(u) 0.194187 < 10 % Convergence criterion: max(du) 7.88734e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78049e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 63/100 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71573e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0645372 < 1 % Convergence criterion: norm(du)/norm(u) 0.188273 < 10 % Convergence criterion: max(du) 7.53607e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.97108e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 64/100 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5766e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0640486 < 1 % Convergence criterion: norm(du)/norm(u) 0.182631 < 10 % Convergence criterion: max(du) 7.19654e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.27598e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 65/100 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.48407e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0635683 < 1 % Convergence criterion: norm(du)/norm(u) 0.177198 < 10 % Convergence criterion: max(du) 6.86825e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6988e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/100 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54879e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0630951 < 1 % Convergence criterion: norm(du)/norm(u) 0.171971 < 10 % Convergence criterion: max(du) 6.55077e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87525e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 67/100 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56091e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0626288 < 1 % Convergence criterion: norm(du)/norm(u) 0.166913 < 10 % Convergence criterion: max(du) 6.24367e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.10981e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 68/100 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55999e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0621694 < 1 % Convergence criterion: norm(du)/norm(u) 0.162057 < 10 % Convergence criterion: max(du) 5.94659e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.99819e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 69/100 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.31457e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.061717 < 1 % Convergence criterion: norm(du)/norm(u) 0.157406 < 10 % Convergence criterion: max(du) 5.65917e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.37217e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 70/100 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53062e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0612712 < 1 % Convergence criterion: norm(du)/norm(u) 0.152932 < 10 % Convergence criterion: max(du) 5.38107e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.8069e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/100 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.52702e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0608321 < 1 % Convergence criterion: norm(du)/norm(u) 0.148617 < 10 % Convergence criterion: max(du) 5.11198e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87958e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 72/100 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.57838e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0603996 < 1 % Convergence criterion: norm(du)/norm(u) 0.144487 < 10 % Convergence criterion: max(du) 4.85159e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.08138e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 73/100 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53723e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0599738 < 1 % Convergence criterion: norm(du)/norm(u) 0.140528 < 10 % Convergence criterion: max(du) 4.5996e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.99679e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 74/100 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.56918e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0595549 < 1 % Convergence criterion: norm(du)/norm(u) 0.136727 < 10 % Convergence criterion: max(du) 4.38177e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83089e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 75/100 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62138e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0591428 < 1 % Convergence criterion: norm(du)/norm(u) 0.13309 < 10 % Convergence criterion: max(du) 4.18997e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.27122e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/100 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.67782e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0587375 < 1 % Convergence criterion: norm(du)/norm(u) 0.129493 < 10 % Convergence criterion: max(du) 4.0049e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73135e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 77/100 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63139e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.058339 < 1 % Convergence criterion: norm(du)/norm(u) 0.126135 < 10 % Convergence criterion: max(du) 3.82626e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04714e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 78/100 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5111e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0579474 < 1 % Convergence criterion: norm(du)/norm(u) 0.12297 < 10 % Convergence criterion: max(du) 3.65374e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87628e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 79/100 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.47892e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0575626 < 1 % Convergence criterion: norm(du)/norm(u) 0.119972 < 10 % Convergence criterion: max(du) 3.48708e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.20672e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 80/100 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5777e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0571843 < 1 % Convergence criterion: norm(du)/norm(u) 0.117108 < 10 % Convergence criterion: max(du) 3.32601e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.60623e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/100 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.54065e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0568135 < 1 % Convergence criterion: norm(du)/norm(u) 0.1144 < 10 % Convergence criterion: max(du) 3.17026e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04018e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 82/100 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60821e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0564484 < 1 % Convergence criterion: norm(du)/norm(u) 0.111627 < 10 % Convergence criterion: max(du) 3.01962e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.24554e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 83/100 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62506e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0560901 < 1 % Convergence criterion: norm(du)/norm(u) 0.109128 < 10 % Convergence criterion: max(du) 2.87383e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62807e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 84/100 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.34731e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0557383 < 1 % Convergence criterion: norm(du)/norm(u) 0.106868 < 10 % Convergence criterion: max(du) 2.7327e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77037e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 85/100 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42804e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0553924 < 1 % Convergence criterion: norm(du)/norm(u) 0.104765 < 10 % Convergence criterion: max(du) 2.596e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.12847e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/100 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53197e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0550529 < 1 % Convergence criterion: norm(du)/norm(u) 0.102801 < 10 % Convergence criterion: max(du) 2.46354e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72943e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 87/100 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.74283e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0547192 < 1 % Convergence criterion: norm(du)/norm(u) 0.100568 < 10 % Convergence criterion: max(du) 2.33515e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79451e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 88/100 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.42941e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0543918 < 1 % Convergence criterion: norm(du)/norm(u) 0.0987584 < 10 % Convergence criterion: max(du) 2.21062e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88382e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 89/100 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.37479e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0540703 < 1 % Convergence criterion: norm(du)/norm(u) 0.0967644 < 10 % Convergence criterion: max(du) 2.08981e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83114e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 90/100 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60909e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0537547 < 1 % Convergence criterion: norm(du)/norm(u) 0.0952115 < 10 % Convergence criterion: max(du) 1.97255e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6854e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/100 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63958e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0534447 < 1 % Convergence criterion: norm(du)/norm(u) 0.0938128 < 10 % Convergence criterion: max(du) 1.85867e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70173e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 92/100 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.41989e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0531379 < 1 % Convergence criterion: norm(du)/norm(u) 0.0925358 < 10 % Convergence criterion: max(du) 1.83323e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88803e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 93/100 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.61521e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0528388 < 1 % Convergence criterion: norm(du)/norm(u) 0.0909609 < 10 % Convergence criterion: max(du) 1.907e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04456e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 94/100 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.49649e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0525456 < 1 % Convergence criterion: norm(du)/norm(u) 0.0898911 < 10 % Convergence criterion: max(du) 1.97948e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61802e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 95/100 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62959e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0522576 < 1 % Convergence criterion: norm(du)/norm(u) 0.088926 < 10 % Convergence criterion: max(du) 2.05073e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.36673e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/100 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.60037e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0519715 < 1 % Convergence criterion: norm(du)/norm(u) 0.0877013 < 10 % Convergence criterion: max(du) 2.12083e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61548e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 97/100 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.63244e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0516925 < 1 % Convergence criterion: norm(du)/norm(u) 0.0868634 < 10 % Convergence criterion: max(du) 2.18981e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.87914e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 98/100 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.5986e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0514187 < 1 % Convergence criterion: norm(du)/norm(u) 0.0861519 < 10 % Convergence criterion: max(du) 2.25772e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.66283e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 99/100 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.55374e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0511506 < 1 % Convergence criterion: norm(du)/norm(u) 0.0853259 < 10 % Convergence criterion: max(du) 2.32463e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.26329e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 100/100 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75967e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0508878 < 1 % Convergence criterion: norm(du)/norm(u) 0.0848305 < 10 % Convergence criterion: max(du) 2.39056e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.17501e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.130599 Total Core solution elapsed time: 36.0569 Linear solver elapsed time: 16.2266 (45%) Total elapsed time: 0 hrs 0 min 36 sec loading results from cluster Step 5: Plotting Step 6: Extract Box SMB Step 7: Historical Relaxation run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/1000 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/1000 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 3/1000 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 4/1000 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 5/1000 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/1000 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 7/1000 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 8/1000 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 9/1000 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 10/1000 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/1000 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 12/1000 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 13/1000 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 14/1000 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 15/1000 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/1000 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 17/1000 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 18/1000 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 19/1000 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 20/1000 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/1000 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 22/1000 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 23/1000 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 24/1000 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 25/1000 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/1000 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 27/1000 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 28/1000 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 29/1000 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 30/1000 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/1000 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 32/1000 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 33/1000 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 34/1000 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 35/1000 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/1000 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 37/1000 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 38/1000 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 39/1000 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 40/1000 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/1000 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 42/1000 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 43/1000 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 44/1000 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 45/1000 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/1000 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 47/1000 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 48/1000 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 49/1000 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 50/1000 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/1000 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 52/1000 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 53/1000 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 54/1000 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 55/1000 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/1000 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 57/1000 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 58/1000 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 59/1000 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 60/1000 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/1000 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 62/1000 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 63/1000 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 64/1000 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 65/1000 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/1000 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 67/1000 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 68/1000 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 69/1000 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 70/1000 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/1000 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 72/1000 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 73/1000 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 74/1000 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 75/1000 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/1000 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 77/1000 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 78/1000 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 79/1000 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 80/1000 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/1000 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 82/1000 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 83/1000 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 84/1000 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 85/1000 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/1000 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 87/1000 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 88/1000 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 89/1000 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 90/1000 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/1000 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 92/1000 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 93/1000 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 94/1000 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 95/1000 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/1000 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 97/1000 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 98/1000 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 99/1000 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 100/1000 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 101/1000 time [yr]: 20.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 102/1000 time [yr]: 20.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 103/1000 time [yr]: 20.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 104/1000 time [yr]: 20.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 105/1000 time [yr]: 21.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 106/1000 time [yr]: 21.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 107/1000 time [yr]: 21.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 108/1000 time [yr]: 21.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 109/1000 time [yr]: 21.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 21.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 21.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 110/1000 time [yr]: 22.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 111/1000 time [yr]: 22.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 112/1000 time [yr]: 22.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 113/1000 time [yr]: 22.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 114/1000 time [yr]: 22.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 22.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 22.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 115/1000 time [yr]: 23.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 116/1000 time [yr]: 23.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 117/1000 time [yr]: 23.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 118/1000 time [yr]: 23.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 119/1000 time [yr]: 23.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 23.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 23.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 120/1000 time [yr]: 24.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 121/1000 time [yr]: 24.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 122/1000 time [yr]: 24.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 123/1000 time [yr]: 24.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 124/1000 time [yr]: 24.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 24.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 24.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 125/1000 time [yr]: 25.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 126/1000 time [yr]: 25.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 127/1000 time [yr]: 25.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 128/1000 time [yr]: 25.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 129/1000 time [yr]: 25.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 25.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 25.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 130/1000 time [yr]: 26.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 131/1000 time [yr]: 26.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 132/1000 time [yr]: 26.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 133/1000 time [yr]: 26.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 134/1000 time [yr]: 26.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 26.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 26.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 135/1000 time [yr]: 27.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 136/1000 time [yr]: 27.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 137/1000 time [yr]: 27.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 138/1000 time [yr]: 27.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 139/1000 time [yr]: 27.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 27.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 27.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 140/1000 time [yr]: 28.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 141/1000 time [yr]: 28.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 142/1000 time [yr]: 28.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 143/1000 time [yr]: 28.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 144/1000 time [yr]: 28.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 28.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 28.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 145/1000 time [yr]: 29.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 146/1000 time [yr]: 29.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 147/1000 time [yr]: 29.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 148/1000 time [yr]: 29.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 149/1000 time [yr]: 29.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 29.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 29.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 150/1000 time [yr]: 30.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 151/1000 time [yr]: 30.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 152/1000 time [yr]: 30.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 153/1000 time [yr]: 30.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 154/1000 time [yr]: 30.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 30.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 30.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 155/1000 time [yr]: 31.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 156/1000 time [yr]: 31.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 157/1000 time [yr]: 31.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 158/1000 time [yr]: 31.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 159/1000 time [yr]: 31.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 31.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 31.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 160/1000 time [yr]: 32.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 161/1000 time [yr]: 32.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 162/1000 time [yr]: 32.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 163/1000 time [yr]: 32.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 164/1000 time [yr]: 32.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 32.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 32.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 165/1000 time [yr]: 33.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 166/1000 time [yr]: 33.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 167/1000 time [yr]: 33.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 168/1000 time [yr]: 33.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 169/1000 time [yr]: 33.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 33.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 33.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 170/1000 time [yr]: 34.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 171/1000 time [yr]: 34.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 172/1000 time [yr]: 34.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 173/1000 time [yr]: 34.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 174/1000 time [yr]: 34.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 34.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 34.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 175/1000 time [yr]: 35.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 176/1000 time [yr]: 35.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 177/1000 time [yr]: 35.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 178/1000 time [yr]: 35.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 179/1000 time [yr]: 35.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 35.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 35.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 180/1000 time [yr]: 36.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 181/1000 time [yr]: 36.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 182/1000 time [yr]: 36.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 183/1000 time [yr]: 36.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 184/1000 time [yr]: 36.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 36.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 36.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 185/1000 time [yr]: 37.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 186/1000 time [yr]: 37.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 187/1000 time [yr]: 37.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 188/1000 time [yr]: 37.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 189/1000 time [yr]: 37.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 37.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 37.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 190/1000 time [yr]: 38.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 191/1000 time [yr]: 38.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 192/1000 time [yr]: 38.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 193/1000 time [yr]: 38.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 194/1000 time [yr]: 38.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 38.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 38.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 195/1000 time [yr]: 39.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 196/1000 time [yr]: 39.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 197/1000 time [yr]: 39.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 198/1000 time [yr]: 39.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 199/1000 time [yr]: 39.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 39.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 39.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 200/1000 time [yr]: 40.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 201/1000 time [yr]: 40.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 202/1000 time [yr]: 40.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 203/1000 time [yr]: 40.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 204/1000 time [yr]: 40.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 40.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 40.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 205/1000 time [yr]: 41.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 206/1000 time [yr]: 41.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 207/1000 time [yr]: 41.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 208/1000 time [yr]: 41.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 209/1000 time [yr]: 41.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 41.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 41.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 210/1000 time [yr]: 42.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 211/1000 time [yr]: 42.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 212/1000 time [yr]: 42.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 213/1000 time [yr]: 42.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 214/1000 time [yr]: 42.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 42.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 42.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 215/1000 time [yr]: 43.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 216/1000 time [yr]: 43.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 217/1000 time [yr]: 43.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 218/1000 time [yr]: 43.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 219/1000 time [yr]: 43.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 43.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 43.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 220/1000 time [yr]: 44.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 221/1000 time [yr]: 44.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 222/1000 time [yr]: 44.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 223/1000 time [yr]: 44.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 224/1000 time [yr]: 44.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 44.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 44.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 225/1000 time [yr]: 45.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 226/1000 time [yr]: 45.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 227/1000 time [yr]: 45.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 228/1000 time [yr]: 45.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 229/1000 time [yr]: 45.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 45.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 45.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 230/1000 time [yr]: 46.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 231/1000 time [yr]: 46.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 232/1000 time [yr]: 46.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 233/1000 time [yr]: 46.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 234/1000 time [yr]: 46.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 46.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 46.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 235/1000 time [yr]: 47.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 236/1000 time [yr]: 47.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 237/1000 time [yr]: 47.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 238/1000 time [yr]: 47.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 239/1000 time [yr]: 47.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 47.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 47.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 240/1000 time [yr]: 48.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 241/1000 time [yr]: 48.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 242/1000 time [yr]: 48.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 243/1000 time [yr]: 48.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 244/1000 time [yr]: 48.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 48.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 48.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 245/1000 time [yr]: 49.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 246/1000 time [yr]: 49.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 247/1000 time [yr]: 49.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 248/1000 time [yr]: 49.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 249/1000 time [yr]: 49.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 49.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 49.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 250/1000 time [yr]: 50.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 251/1000 time [yr]: 50.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 252/1000 time [yr]: 50.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 253/1000 time [yr]: 50.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 254/1000 time [yr]: 50.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 50.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 50.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 255/1000 time [yr]: 51.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 256/1000 time [yr]: 51.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 257/1000 time [yr]: 51.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 258/1000 time [yr]: 51.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 259/1000 time [yr]: 51.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 51.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 51.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 260/1000 time [yr]: 52.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 261/1000 time [yr]: 52.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 262/1000 time [yr]: 52.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 263/1000 time [yr]: 52.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 264/1000 time [yr]: 52.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 52.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 52.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 265/1000 time [yr]: 53.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 266/1000 time [yr]: 53.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 267/1000 time [yr]: 53.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 268/1000 time [yr]: 53.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 269/1000 time [yr]: 53.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 53.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 53.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 270/1000 time [yr]: 54.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 271/1000 time [yr]: 54.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 272/1000 time [yr]: 54.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 273/1000 time [yr]: 54.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 274/1000 time [yr]: 54.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 54.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 54.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 275/1000 time [yr]: 55.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 276/1000 time [yr]: 55.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 277/1000 time [yr]: 55.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 278/1000 time [yr]: 55.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 279/1000 time [yr]: 55.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 55.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 55.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 280/1000 time [yr]: 56.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 281/1000 time [yr]: 56.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 282/1000 time [yr]: 56.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 283/1000 time [yr]: 56.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 284/1000 time [yr]: 56.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 56.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 56.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 285/1000 time [yr]: 57.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 286/1000 time [yr]: 57.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 287/1000 time [yr]: 57.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 288/1000 time [yr]: 57.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 289/1000 time [yr]: 57.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 57.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 57.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 290/1000 time [yr]: 58.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 291/1000 time [yr]: 58.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 292/1000 time [yr]: 58.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 293/1000 time [yr]: 58.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 294/1000 time [yr]: 58.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 58.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 58.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 295/1000 time [yr]: 59.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 296/1000 time [yr]: 59.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 297/1000 time [yr]: 59.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 298/1000 time [yr]: 59.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 299/1000 time [yr]: 59.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 59.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 59.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 300/1000 time [yr]: 60.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 301/1000 time [yr]: 60.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 302/1000 time [yr]: 60.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 303/1000 time [yr]: 60.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 304/1000 time [yr]: 60.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 60.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 60.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 305/1000 time [yr]: 61.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 306/1000 time [yr]: 61.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 307/1000 time [yr]: 61.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 308/1000 time [yr]: 61.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 309/1000 time [yr]: 61.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 61.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 61.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 310/1000 time [yr]: 62.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 311/1000 time [yr]: 62.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 312/1000 time [yr]: 62.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 313/1000 time [yr]: 62.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 314/1000 time [yr]: 62.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 62.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 62.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 315/1000 time [yr]: 63.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 316/1000 time [yr]: 63.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 317/1000 time [yr]: 63.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 318/1000 time [yr]: 63.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 319/1000 time [yr]: 63.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 63.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 63.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 320/1000 time [yr]: 64.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 321/1000 time [yr]: 64.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 322/1000 time [yr]: 64.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 323/1000 time [yr]: 64.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 324/1000 time [yr]: 64.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 64.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 64.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 325/1000 time [yr]: 65.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 326/1000 time [yr]: 65.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 327/1000 time [yr]: 65.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 328/1000 time [yr]: 65.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 329/1000 time [yr]: 65.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 65.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 65.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 330/1000 time [yr]: 66.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 331/1000 time [yr]: 66.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 332/1000 time [yr]: 66.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 333/1000 time [yr]: 66.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 334/1000 time [yr]: 66.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 66.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 66.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 335/1000 time [yr]: 67.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 336/1000 time [yr]: 67.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 337/1000 time [yr]: 67.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 338/1000 time [yr]: 67.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 339/1000 time [yr]: 67.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 67.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 67.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 340/1000 time [yr]: 68.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 341/1000 time [yr]: 68.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 342/1000 time [yr]: 68.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 343/1000 time [yr]: 68.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 344/1000 time [yr]: 68.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 68.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 68.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 345/1000 time [yr]: 69.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 346/1000 time [yr]: 69.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 347/1000 time [yr]: 69.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 348/1000 time [yr]: 69.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 349/1000 time [yr]: 69.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 69.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 69.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 350/1000 time [yr]: 70.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 351/1000 time [yr]: 70.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 352/1000 time [yr]: 70.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 353/1000 time [yr]: 70.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 354/1000 time [yr]: 70.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 70.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 70.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 355/1000 time [yr]: 71.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 356/1000 time [yr]: 71.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 357/1000 time [yr]: 71.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 358/1000 time [yr]: 71.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 359/1000 time [yr]: 71.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 71.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 71.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 360/1000 time [yr]: 72.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 361/1000 time [yr]: 72.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 362/1000 time [yr]: 72.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 363/1000 time [yr]: 72.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 364/1000 time [yr]: 72.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 72.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 72.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 365/1000 time [yr]: 73.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 366/1000 time [yr]: 73.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 367/1000 time [yr]: 73.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 368/1000 time [yr]: 73.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 369/1000 time [yr]: 73.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 73.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 73.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 370/1000 time [yr]: 74.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 371/1000 time [yr]: 74.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 372/1000 time [yr]: 74.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 373/1000 time [yr]: 74.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 374/1000 time [yr]: 74.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 74.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 74.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 375/1000 time [yr]: 75.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 376/1000 time [yr]: 75.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 377/1000 time [yr]: 75.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 378/1000 time [yr]: 75.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 379/1000 time [yr]: 75.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 75.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 75.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 380/1000 time [yr]: 76.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 381/1000 time [yr]: 76.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 382/1000 time [yr]: 76.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 383/1000 time [yr]: 76.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 384/1000 time [yr]: 76.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 76.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 76.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 385/1000 time [yr]: 77.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 386/1000 time [yr]: 77.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 387/1000 time [yr]: 77.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 388/1000 time [yr]: 77.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 389/1000 time [yr]: 77.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 77.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 77.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 390/1000 time [yr]: 78.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 391/1000 time [yr]: 78.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 392/1000 time [yr]: 78.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 393/1000 time [yr]: 78.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 394/1000 time [yr]: 78.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 78.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 78.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 395/1000 time [yr]: 79.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 396/1000 time [yr]: 79.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 397/1000 time [yr]: 79.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 398/1000 time [yr]: 79.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 399/1000 time [yr]: 79.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 79.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 79.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 400/1000 time [yr]: 80.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 401/1000 time [yr]: 80.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 402/1000 time [yr]: 80.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 403/1000 time [yr]: 80.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 404/1000 time [yr]: 80.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 80.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 80.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 405/1000 time [yr]: 81.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 406/1000 time [yr]: 81.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 407/1000 time [yr]: 81.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 408/1000 time [yr]: 81.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 409/1000 time [yr]: 81.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 81.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 81.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 410/1000 time [yr]: 82.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 411/1000 time [yr]: 82.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 412/1000 time [yr]: 82.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 413/1000 time [yr]: 82.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 414/1000 time [yr]: 82.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 82.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 82.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 415/1000 time [yr]: 83.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 416/1000 time [yr]: 83.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 417/1000 time [yr]: 83.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 418/1000 time [yr]: 83.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 419/1000 time [yr]: 83.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 83.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 83.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 420/1000 time [yr]: 84.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 421/1000 time [yr]: 84.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 422/1000 time [yr]: 84.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 423/1000 time [yr]: 84.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 424/1000 time [yr]: 84.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 84.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 84.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 425/1000 time [yr]: 85.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 426/1000 time [yr]: 85.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 427/1000 time [yr]: 85.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 428/1000 time [yr]: 85.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 429/1000 time [yr]: 85.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 85.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 85.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 430/1000 time [yr]: 86.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 431/1000 time [yr]: 86.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 432/1000 time [yr]: 86.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 433/1000 time [yr]: 86.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 434/1000 time [yr]: 86.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 86.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 86.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 435/1000 time [yr]: 87.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 436/1000 time [yr]: 87.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 437/1000 time [yr]: 87.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 438/1000 time [yr]: 87.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 439/1000 time [yr]: 87.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 87.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 87.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 440/1000 time [yr]: 88.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 441/1000 time [yr]: 88.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 442/1000 time [yr]: 88.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 443/1000 time [yr]: 88.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 444/1000 time [yr]: 88.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 88.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 88.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 445/1000 time [yr]: 89.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 446/1000 time [yr]: 89.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 447/1000 time [yr]: 89.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 448/1000 time [yr]: 89.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 449/1000 time [yr]: 89.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 89.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 89.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 450/1000 time [yr]: 90.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 451/1000 time [yr]: 90.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 452/1000 time [yr]: 90.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 453/1000 time [yr]: 90.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 454/1000 time [yr]: 90.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 90.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 90.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 455/1000 time [yr]: 91.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 456/1000 time [yr]: 91.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 457/1000 time [yr]: 91.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 458/1000 time [yr]: 91.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 459/1000 time [yr]: 91.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 91.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 91.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 460/1000 time [yr]: 92.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 461/1000 time [yr]: 92.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 462/1000 time [yr]: 92.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 463/1000 time [yr]: 92.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 464/1000 time [yr]: 92.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 92.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 92.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 465/1000 time [yr]: 93.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 466/1000 time [yr]: 93.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 467/1000 time [yr]: 93.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 468/1000 time [yr]: 93.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 469/1000 time [yr]: 93.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 93.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 93.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 470/1000 time [yr]: 94.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 471/1000 time [yr]: 94.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 472/1000 time [yr]: 94.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 473/1000 time [yr]: 94.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 474/1000 time [yr]: 94.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 94.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 94.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 475/1000 time [yr]: 95.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 476/1000 time [yr]: 95.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 477/1000 time [yr]: 95.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 478/1000 time [yr]: 95.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 479/1000 time [yr]: 95.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 95.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 95.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 480/1000 time [yr]: 96.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 481/1000 time [yr]: 96.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 482/1000 time [yr]: 96.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 483/1000 time [yr]: 96.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 484/1000 time [yr]: 96.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 96.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 96.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 485/1000 time [yr]: 97.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 486/1000 time [yr]: 97.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 487/1000 time [yr]: 97.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 488/1000 time [yr]: 97.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 489/1000 time [yr]: 97.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 97.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 97.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 490/1000 time [yr]: 98.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 491/1000 time [yr]: 98.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 492/1000 time [yr]: 98.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 493/1000 time [yr]: 98.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 494/1000 time [yr]: 98.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 98.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 98.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 495/1000 time [yr]: 99.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 496/1000 time [yr]: 99.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 497/1000 time [yr]: 99.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 498/1000 time [yr]: 99.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 499/1000 time [yr]: 99.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 99.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 99.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 500/1000 time [yr]: 100.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 501/1000 time [yr]: 100.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 502/1000 time [yr]: 100.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 503/1000 time [yr]: 100.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 504/1000 time [yr]: 100.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 100.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 100.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 505/1000 time [yr]: 101.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 506/1000 time [yr]: 101.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 507/1000 time [yr]: 101.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 508/1000 time [yr]: 101.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 509/1000 time [yr]: 101.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 101.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 101.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 510/1000 time [yr]: 102.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 511/1000 time [yr]: 102.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 512/1000 time [yr]: 102.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 513/1000 time [yr]: 102.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 514/1000 time [yr]: 102.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 102.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 102.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 515/1000 time [yr]: 103.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 516/1000 time [yr]: 103.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 517/1000 time [yr]: 103.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 518/1000 time [yr]: 103.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 519/1000 time [yr]: 103.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 103.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 103.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 520/1000 time [yr]: 104.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 521/1000 time [yr]: 104.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 522/1000 time [yr]: 104.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 523/1000 time [yr]: 104.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 524/1000 time [yr]: 104.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 104.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 104.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 525/1000 time [yr]: 105.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 526/1000 time [yr]: 105.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 527/1000 time [yr]: 105.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 528/1000 time [yr]: 105.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 529/1000 time [yr]: 105.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 105.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 105.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 530/1000 time [yr]: 106.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 531/1000 time [yr]: 106.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 532/1000 time [yr]: 106.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 533/1000 time [yr]: 106.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 534/1000 time [yr]: 106.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 106.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 106.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 535/1000 time [yr]: 107.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 536/1000 time [yr]: 107.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 537/1000 time [yr]: 107.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 538/1000 time [yr]: 107.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 539/1000 time [yr]: 107.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 107.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 107.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 540/1000 time [yr]: 108.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 541/1000 time [yr]: 108.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 542/1000 time [yr]: 108.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 543/1000 time [yr]: 108.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 544/1000 time [yr]: 108.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 108.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 108.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 545/1000 time [yr]: 109.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 546/1000 time [yr]: 109.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 547/1000 time [yr]: 109.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 548/1000 time [yr]: 109.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 549/1000 time [yr]: 109.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 109.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 109.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 550/1000 time [yr]: 110.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 551/1000 time [yr]: 110.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 552/1000 time [yr]: 110.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 553/1000 time [yr]: 110.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 554/1000 time [yr]: 110.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 110.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 110.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 555/1000 time [yr]: 111.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 556/1000 time [yr]: 111.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 557/1000 time [yr]: 111.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 558/1000 time [yr]: 111.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 559/1000 time [yr]: 111.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 111.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 111.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 560/1000 time [yr]: 112.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 561/1000 time [yr]: 112.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 562/1000 time [yr]: 112.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 563/1000 time [yr]: 112.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 564/1000 time [yr]: 112.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 112.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 112.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 565/1000 time [yr]: 113.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 566/1000 time [yr]: 113.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 567/1000 time [yr]: 113.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 568/1000 time [yr]: 113.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 569/1000 time [yr]: 113.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 113.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 113.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 570/1000 time [yr]: 114.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 571/1000 time [yr]: 114.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 572/1000 time [yr]: 114.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 573/1000 time [yr]: 114.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 574/1000 time [yr]: 114.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 114.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 114.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 575/1000 time [yr]: 115.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 576/1000 time [yr]: 115.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 577/1000 time [yr]: 115.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 578/1000 time [yr]: 115.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 579/1000 time [yr]: 115.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 115.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 115.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 580/1000 time [yr]: 116.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 581/1000 time [yr]: 116.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 582/1000 time [yr]: 116.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 583/1000 time [yr]: 116.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 584/1000 time [yr]: 116.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 116.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 116.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 585/1000 time [yr]: 117.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 586/1000 time [yr]: 117.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 587/1000 time [yr]: 117.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 588/1000 time [yr]: 117.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 589/1000 time [yr]: 117.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 117.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 117.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 590/1000 time [yr]: 118.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 591/1000 time [yr]: 118.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 592/1000 time [yr]: 118.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 593/1000 time [yr]: 118.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 594/1000 time [yr]: 118.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 118.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 118.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 595/1000 time [yr]: 119.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 596/1000 time [yr]: 119.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 597/1000 time [yr]: 119.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 598/1000 time [yr]: 119.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 599/1000 time [yr]: 119.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 119.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 119.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 600/1000 time [yr]: 120.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 601/1000 time [yr]: 120.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 602/1000 time [yr]: 120.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 603/1000 time [yr]: 120.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 604/1000 time [yr]: 120.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 120.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 120.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 605/1000 time [yr]: 121.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 606/1000 time [yr]: 121.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 607/1000 time [yr]: 121.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 608/1000 time [yr]: 121.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 609/1000 time [yr]: 121.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 121.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 121.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 610/1000 time [yr]: 122.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 611/1000 time [yr]: 122.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 612/1000 time [yr]: 122.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 613/1000 time [yr]: 122.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 614/1000 time [yr]: 122.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 122.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 122.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 615/1000 time [yr]: 123.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 616/1000 time [yr]: 123.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 617/1000 time [yr]: 123.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 618/1000 time [yr]: 123.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 619/1000 time [yr]: 123.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 123.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 123.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 620/1000 time [yr]: 124.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 621/1000 time [yr]: 124.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 622/1000 time [yr]: 124.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 623/1000 time [yr]: 124.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 624/1000 time [yr]: 124.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 124.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 124.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 625/1000 time [yr]: 125.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 626/1000 time [yr]: 125.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 627/1000 time [yr]: 125.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 628/1000 time [yr]: 125.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 629/1000 time [yr]: 125.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 125.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 125.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 630/1000 time [yr]: 126.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 631/1000 time [yr]: 126.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 632/1000 time [yr]: 126.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 633/1000 time [yr]: 126.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 634/1000 time [yr]: 126.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 126.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 126.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 635/1000 time [yr]: 127.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 636/1000 time [yr]: 127.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 637/1000 time [yr]: 127.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 638/1000 time [yr]: 127.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 639/1000 time [yr]: 127.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 127.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 127.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 640/1000 time [yr]: 128.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 641/1000 time [yr]: 128.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 642/1000 time [yr]: 128.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 643/1000 time [yr]: 128.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 644/1000 time [yr]: 128.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 128.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 128.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 645/1000 time [yr]: 129.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 646/1000 time [yr]: 129.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 647/1000 time [yr]: 129.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 648/1000 time [yr]: 129.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 649/1000 time [yr]: 129.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 129.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 129.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 650/1000 time [yr]: 130.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 651/1000 time [yr]: 130.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 652/1000 time [yr]: 130.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 653/1000 time [yr]: 130.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 654/1000 time [yr]: 130.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 130.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 130.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 655/1000 time [yr]: 131.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 656/1000 time [yr]: 131.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 657/1000 time [yr]: 131.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 658/1000 time [yr]: 131.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 659/1000 time [yr]: 131.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 131.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 131.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 660/1000 time [yr]: 132.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 661/1000 time [yr]: 132.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 662/1000 time [yr]: 132.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 663/1000 time [yr]: 132.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 664/1000 time [yr]: 132.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 132.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 132.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 665/1000 time [yr]: 133.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 666/1000 time [yr]: 133.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 667/1000 time [yr]: 133.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 668/1000 time [yr]: 133.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 669/1000 time [yr]: 133.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 133.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 133.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 670/1000 time [yr]: 134.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 671/1000 time [yr]: 134.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 672/1000 time [yr]: 134.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 673/1000 time [yr]: 134.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 674/1000 time [yr]: 134.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 134.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 134.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 675/1000 time [yr]: 135.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 676/1000 time [yr]: 135.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 677/1000 time [yr]: 135.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 678/1000 time [yr]: 135.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 679/1000 time [yr]: 135.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 135.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 135.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 680/1000 time [yr]: 136.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 681/1000 time [yr]: 136.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 682/1000 time [yr]: 136.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 683/1000 time [yr]: 136.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 684/1000 time [yr]: 136.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 136.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 136.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 685/1000 time [yr]: 137.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 686/1000 time [yr]: 137.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 687/1000 time [yr]: 137.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 688/1000 time [yr]: 137.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 689/1000 time [yr]: 137.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 137.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 137.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 690/1000 time [yr]: 138.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 691/1000 time [yr]: 138.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 692/1000 time [yr]: 138.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 693/1000 time [yr]: 138.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 694/1000 time [yr]: 138.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 138.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 138.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 695/1000 time [yr]: 139.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 696/1000 time [yr]: 139.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 697/1000 time [yr]: 139.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 698/1000 time [yr]: 139.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 699/1000 time [yr]: 139.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 139.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 139.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 700/1000 time [yr]: 140.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 701/1000 time [yr]: 140.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 702/1000 time [yr]: 140.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 703/1000 time [yr]: 140.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 704/1000 time [yr]: 140.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 140.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 140.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 705/1000 time [yr]: 141.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 706/1000 time [yr]: 141.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 707/1000 time [yr]: 141.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 708/1000 time [yr]: 141.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 709/1000 time [yr]: 141.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 141.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 141.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 710/1000 time [yr]: 142.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 711/1000 time [yr]: 142.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 712/1000 time [yr]: 142.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 713/1000 time [yr]: 142.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 714/1000 time [yr]: 142.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 142.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 142.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 715/1000 time [yr]: 143.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 716/1000 time [yr]: 143.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 717/1000 time [yr]: 143.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 718/1000 time [yr]: 143.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 719/1000 time [yr]: 143.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 143.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 143.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 720/1000 time [yr]: 144.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 721/1000 time [yr]: 144.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 722/1000 time [yr]: 144.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 723/1000 time [yr]: 144.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 724/1000 time [yr]: 144.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 144.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 144.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 725/1000 time [yr]: 145.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 726/1000 time [yr]: 145.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 727/1000 time [yr]: 145.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 728/1000 time [yr]: 145.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 729/1000 time [yr]: 145.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 145.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 145.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 730/1000 time [yr]: 146.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 731/1000 time [yr]: 146.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 732/1000 time [yr]: 146.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 733/1000 time [yr]: 146.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 734/1000 time [yr]: 146.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 146.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 146.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 735/1000 time [yr]: 147.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 736/1000 time [yr]: 147.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 737/1000 time [yr]: 147.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 738/1000 time [yr]: 147.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 739/1000 time [yr]: 147.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 147.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 147.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 740/1000 time [yr]: 148.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 741/1000 time [yr]: 148.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 742/1000 time [yr]: 148.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 743/1000 time [yr]: 148.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 744/1000 time [yr]: 148.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 148.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 148.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 745/1000 time [yr]: 149.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 746/1000 time [yr]: 149.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 747/1000 time [yr]: 149.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 748/1000 time [yr]: 149.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 749/1000 time [yr]: 149.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 149.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 149.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 750/1000 time [yr]: 150.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 751/1000 time [yr]: 150.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 752/1000 time [yr]: 150.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 753/1000 time [yr]: 150.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 754/1000 time [yr]: 150.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 150.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 150.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 755/1000 time [yr]: 151.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 756/1000 time [yr]: 151.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 757/1000 time [yr]: 151.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 758/1000 time [yr]: 151.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 759/1000 time [yr]: 151.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 151.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 151.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 760/1000 time [yr]: 152.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 761/1000 time [yr]: 152.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 762/1000 time [yr]: 152.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 763/1000 time [yr]: 152.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 764/1000 time [yr]: 152.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 152.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 152.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 765/1000 time [yr]: 153.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 766/1000 time [yr]: 153.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 767/1000 time [yr]: 153.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 768/1000 time [yr]: 153.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 769/1000 time [yr]: 153.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 153.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 153.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 770/1000 time [yr]: 154.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 771/1000 time [yr]: 154.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 772/1000 time [yr]: 154.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 773/1000 time [yr]: 154.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 774/1000 time [yr]: 154.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 154.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 154.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 775/1000 time [yr]: 155.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 776/1000 time [yr]: 155.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 777/1000 time [yr]: 155.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 778/1000 time [yr]: 155.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 779/1000 time [yr]: 155.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 155.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 155.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 780/1000 time [yr]: 156.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 781/1000 time [yr]: 156.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 782/1000 time [yr]: 156.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 783/1000 time [yr]: 156.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 784/1000 time [yr]: 156.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 156.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 156.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 785/1000 time [yr]: 157.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 786/1000 time [yr]: 157.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 787/1000 time [yr]: 157.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 788/1000 time [yr]: 157.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 789/1000 time [yr]: 157.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 157.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 157.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 790/1000 time [yr]: 158.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 791/1000 time [yr]: 158.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 792/1000 time [yr]: 158.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 793/1000 time [yr]: 158.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 794/1000 time [yr]: 158.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 158.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 158.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 795/1000 time [yr]: 159.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 796/1000 time [yr]: 159.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 797/1000 time [yr]: 159.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 798/1000 time [yr]: 159.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 799/1000 time [yr]: 159.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 159.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 159.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 800/1000 time [yr]: 160.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 801/1000 time [yr]: 160.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 802/1000 time [yr]: 160.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 803/1000 time [yr]: 160.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 804/1000 time [yr]: 160.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 160.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 160.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 805/1000 time [yr]: 161.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 806/1000 time [yr]: 161.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 807/1000 time [yr]: 161.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 808/1000 time [yr]: 161.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 809/1000 time [yr]: 161.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 161.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 161.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 810/1000 time [yr]: 162.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 811/1000 time [yr]: 162.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 812/1000 time [yr]: 162.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 813/1000 time [yr]: 162.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 814/1000 time [yr]: 162.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 162.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 162.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 815/1000 time [yr]: 163.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 816/1000 time [yr]: 163.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 817/1000 time [yr]: 163.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 818/1000 time [yr]: 163.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 819/1000 time [yr]: 163.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 163.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 163.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 820/1000 time [yr]: 164.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 821/1000 time [yr]: 164.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 822/1000 time [yr]: 164.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 823/1000 time [yr]: 164.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 824/1000 time [yr]: 164.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 164.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 164.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 825/1000 time [yr]: 165.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 826/1000 time [yr]: 165.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 827/1000 time [yr]: 165.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 828/1000 time [yr]: 165.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 829/1000 time [yr]: 165.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 165.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 165.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 830/1000 time [yr]: 166.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 831/1000 time [yr]: 166.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 832/1000 time [yr]: 166.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 833/1000 time [yr]: 166.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 834/1000 time [yr]: 166.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 166.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 166.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 835/1000 time [yr]: 167.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 836/1000 time [yr]: 167.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 837/1000 time [yr]: 167.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 838/1000 time [yr]: 167.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 839/1000 time [yr]: 167.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 167.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 167.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 840/1000 time [yr]: 168.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 841/1000 time [yr]: 168.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 842/1000 time [yr]: 168.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 843/1000 time [yr]: 168.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 844/1000 time [yr]: 168.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 168.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 168.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 845/1000 time [yr]: 169.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 846/1000 time [yr]: 169.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 847/1000 time [yr]: 169.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 848/1000 time [yr]: 169.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 849/1000 time [yr]: 169.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 169.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 169.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 850/1000 time [yr]: 170.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 851/1000 time [yr]: 170.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 852/1000 time [yr]: 170.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 853/1000 time [yr]: 170.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 854/1000 time [yr]: 170.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 170.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 170.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 855/1000 time [yr]: 171.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 856/1000 time [yr]: 171.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 857/1000 time [yr]: 171.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 858/1000 time [yr]: 171.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 859/1000 time [yr]: 171.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 171.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 171.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 860/1000 time [yr]: 172.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 861/1000 time [yr]: 172.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 862/1000 time [yr]: 172.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 863/1000 time [yr]: 172.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 864/1000 time [yr]: 172.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 172.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 172.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 865/1000 time [yr]: 173.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 866/1000 time [yr]: 173.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 867/1000 time [yr]: 173.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 868/1000 time [yr]: 173.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 869/1000 time [yr]: 173.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 173.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 173.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 870/1000 time [yr]: 174.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 871/1000 time [yr]: 174.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 872/1000 time [yr]: 174.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 873/1000 time [yr]: 174.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 874/1000 time [yr]: 174.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 174.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 174.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 875/1000 time [yr]: 175.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 876/1000 time [yr]: 175.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 877/1000 time [yr]: 175.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 878/1000 time [yr]: 175.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 879/1000 time [yr]: 175.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 175.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 175.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 880/1000 time [yr]: 176.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 881/1000 time [yr]: 176.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 882/1000 time [yr]: 176.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 883/1000 time [yr]: 176.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 884/1000 time [yr]: 176.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 176.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 176.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 885/1000 time [yr]: 177.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 886/1000 time [yr]: 177.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 887/1000 time [yr]: 177.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 888/1000 time [yr]: 177.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 889/1000 time [yr]: 177.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 177.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 177.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 890/1000 time [yr]: 178.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 891/1000 time [yr]: 178.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 892/1000 time [yr]: 178.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 893/1000 time [yr]: 178.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 894/1000 time [yr]: 178.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 178.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 178.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 895/1000 time [yr]: 179.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 896/1000 time [yr]: 179.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 897/1000 time [yr]: 179.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 898/1000 time [yr]: 179.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 899/1000 time [yr]: 179.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 179.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 179.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 900/1000 time [yr]: 180.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 901/1000 time [yr]: 180.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 902/1000 time [yr]: 180.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 903/1000 time [yr]: 180.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 904/1000 time [yr]: 180.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 180.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 180.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 905/1000 time [yr]: 181.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 906/1000 time [yr]: 181.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 907/1000 time [yr]: 181.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 908/1000 time [yr]: 181.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 909/1000 time [yr]: 181.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 181.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 181.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 910/1000 time [yr]: 182.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 911/1000 time [yr]: 182.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 912/1000 time [yr]: 182.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 913/1000 time [yr]: 182.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 914/1000 time [yr]: 182.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 182.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 182.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 915/1000 time [yr]: 183.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 916/1000 time [yr]: 183.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 917/1000 time [yr]: 183.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 918/1000 time [yr]: 183.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 919/1000 time [yr]: 183.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 183.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 183.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 920/1000 time [yr]: 184.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 921/1000 time [yr]: 184.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 922/1000 time [yr]: 184.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 923/1000 time [yr]: 184.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 924/1000 time [yr]: 184.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 184.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 184.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 925/1000 time [yr]: 185.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 926/1000 time [yr]: 185.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 927/1000 time [yr]: 185.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 928/1000 time [yr]: 185.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 929/1000 time [yr]: 185.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 185.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 185.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 930/1000 time [yr]: 186.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 931/1000 time [yr]: 186.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 932/1000 time [yr]: 186.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 933/1000 time [yr]: 186.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 934/1000 time [yr]: 186.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 186.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 186.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 935/1000 time [yr]: 187.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 936/1000 time [yr]: 187.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 937/1000 time [yr]: 187.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 938/1000 time [yr]: 187.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 939/1000 time [yr]: 187.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 187.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 187.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 940/1000 time [yr]: 188.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 941/1000 time [yr]: 188.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 942/1000 time [yr]: 188.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 943/1000 time [yr]: 188.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 944/1000 time [yr]: 188.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 188.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 188.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 945/1000 time [yr]: 189.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 946/1000 time [yr]: 189.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 947/1000 time [yr]: 189.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 948/1000 time [yr]: 189.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 949/1000 time [yr]: 189.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 189.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 189.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 950/1000 time [yr]: 190.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 951/1000 time [yr]: 190.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 952/1000 time [yr]: 190.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 953/1000 time [yr]: 190.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 954/1000 time [yr]: 190.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 190.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 190.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 955/1000 time [yr]: 191.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 956/1000 time [yr]: 191.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 957/1000 time [yr]: 191.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 958/1000 time [yr]: 191.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 959/1000 time [yr]: 191.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 191.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 191.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 960/1000 time [yr]: 192.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 961/1000 time [yr]: 192.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 962/1000 time [yr]: 192.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 963/1000 time [yr]: 192.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 964/1000 time [yr]: 192.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 192.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 192.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 965/1000 time [yr]: 193.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 966/1000 time [yr]: 193.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 967/1000 time [yr]: 193.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 968/1000 time [yr]: 193.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 969/1000 time [yr]: 193.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 193.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 193.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 970/1000 time [yr]: 194.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 971/1000 time [yr]: 194.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 972/1000 time [yr]: 194.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 973/1000 time [yr]: 194.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 974/1000 time [yr]: 194.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 194.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 194.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 975/1000 time [yr]: 195.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 976/1000 time [yr]: 195.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 977/1000 time [yr]: 195.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 978/1000 time [yr]: 195.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 979/1000 time [yr]: 195.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 195.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 195.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 980/1000 time [yr]: 196.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 981/1000 time [yr]: 196.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 982/1000 time [yr]: 196.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 983/1000 time [yr]: 196.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 984/1000 time [yr]: 196.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 196.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 196.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 985/1000 time [yr]: 197.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 986/1000 time [yr]: 197.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 987/1000 time [yr]: 197.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 988/1000 time [yr]: 197.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 989/1000 time [yr]: 197.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 197.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 197.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 990/1000 time [yr]: 198.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 991/1000 time [yr]: 198.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 992/1000 time [yr]: 198.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 993/1000 time [yr]: 198.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 994/1000 time [yr]: 198.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 198.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 198.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 995/1000 time [yr]: 199.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 996/1000 time [yr]: 199.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.2 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 997/1000 time [yr]: 199.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.4 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 998/1000 time [yr]: 199.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.6 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 999/1000 time [yr]: 199.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 199.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 199.8 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs iteration 1000/1000 time [yr]: 200.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 200 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 7398 x 7398) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset checking convergence Input updates from constant Updating inputs from solution for StressbalanceAnalysis computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 200 Allocating matrices (Kff stiffness matrix size: 3699 x 3699) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.134075 Total Core solution elapsed time: 483.657 Linear solver elapsed time: 292.438 (60%) Total elapsed time: 0 hrs 8 min 3 sec loading results from cluster SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-ISMIP +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Constructing Geometry Defining friction parameters Construct ice rheological properties Set boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no dsl.global_average_thermosteric_sea_level specified: transient values set to zero no dsl.sea_surface_height_above_geoid specified: transient values set to zero no dsl.sea_water_pressure_at_sea_floor specified: transient values set to zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: solver residue: norm(KU-F)/norm(F)=1.22004e-11 mechanical equilibrium convergence criterion 100 > 0.01 % Convergence criterion: norm(du)/norm(u) 2.93163e+11 > 1 % Convergence criterion: max(du) 1.71957e-06 > 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=4.4539e-11 mechanical equilibrium convergence criterion 76.8235 > 0.01 % Convergence criterion: norm(du)/norm(u) 15.6455 > 1 % Convergence criterion: max(du) 4.09332e-07 > 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=9.17309e-11 mechanical equilibrium convergence criterion 38.5767 > 0.01 % Convergence criterion: norm(du)/norm(u) 11.2403 > 1 % Convergence criterion: max(du) 3.00053e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=1.6999e-10 mechanical equilibrium convergence criterion 24.567 > 0.01 % Convergence criterion: norm(du)/norm(u) 7.81407 > 1 % Convergence criterion: max(du) 2.08151e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.05812e-10 mechanical equilibrium convergence criterion 15.9808 > 0.01 % Convergence criterion: norm(du)/norm(u) 5.30991 > 1 % Convergence criterion: max(du) 1.43808e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.17583e-10 mechanical equilibrium convergence criterion 10.0203 > 0.01 % Convergence criterion: norm(du)/norm(u) 3.55838 > 1 % Convergence criterion: max(du) 9.77761e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.36108e-10 mechanical equilibrium convergence criterion 6.28176 > 0.01 % Convergence criterion: norm(du)/norm(u) 2.36978 > 1 % Convergence criterion: max(du) 6.58033e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.59941e-10 mechanical equilibrium convergence criterion 3.98732 > 0.01 % Convergence criterion: norm(du)/norm(u) 1.57429 > 1 % Convergence criterion: max(du) 4.42306e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.56425e-10 mechanical equilibrium convergence criterion 2.56479 > 0.01 % Convergence criterion: norm(du)/norm(u) 1.04497 > 1 % Convergence criterion: max(du) 2.95422e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.80652e-10 mechanical equilibrium convergence criterion 1.6672 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.693537 < 1 % Convergence criterion: max(du) 1.96268e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.5014e-10 mechanical equilibrium convergence criterion 1.09168 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.460377 < 1 % Convergence criterion: max(du) 1.29995e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.66211e-10 mechanical equilibrium convergence criterion 0.718201 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.305689 < 1 % Convergence criterion: max(du) 8.5961e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.55557e-10 mechanical equilibrium convergence criterion 0.473849 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.20304 < 1 % Convergence criterion: max(du) 5.68039e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.69322e-10 mechanical equilibrium convergence criterion 0.31315 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.1349 < 1 % Convergence criterion: max(du) 3.7532e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.96463e-10 mechanical equilibrium convergence criterion 0.207134 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0896529 < 1 % Convergence criterion: max(du) 2.48041e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.5647e-10 mechanical equilibrium convergence criterion 0.137068 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0595968 < 1 % Convergence criterion: max(du) 1.63991e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.79408e-10 mechanical equilibrium convergence criterion 0.090717 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0396256 < 1 % Convergence criterion: max(du) 1.08476e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.64029e-10 mechanical equilibrium convergence criterion 0.0600398 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0263519 < 1 % Convergence criterion: max(du) 7.17916e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.74566e-10 mechanical equilibrium convergence criterion 0.0397332 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0175275 < 1 % Convergence criterion: max(du) 4.75381e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.79327e-10 mechanical equilibrium convergence criterion 0.0262916 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0116599 < 1 % Convergence criterion: max(du) 3.14939e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.35241e-10 mechanical equilibrium convergence criterion 0.0173951 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.00775754 < 1 % Convergence criterion: max(du) 2.08743e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.50621e-10 mechanical equilibrium convergence criterion 0.0115076 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.00516182 < 1 % Convergence criterion: max(du) 1.38415e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.65759e-10 mechanical equilibrium convergence criterion 0.00761203 < 0.01 % Convergence criterion: norm(du)/norm(u) 0.003435 < 1 % Convergence criterion: max(du) 9.18157e-11 < 3.17098e-07 number of unstable constraints: 0 total number of iterations: 23 solver residue: norm(KU-F)/norm(F)=1.26315e-14 write lock file: FemModel initialization elapsed time: 0.117266 Total Core solution elapsed time: 9.16884 Linear solver elapsed time: 4.73532 (52%) Total elapsed time: 0 hrs 0 min 9 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-ISMIP +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Constructing Geometry Defining friction parameters Construct ice rheological properties Set boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no dsl.global_average_thermosteric_sea_level specified: transient values set to zero no dsl.sea_surface_height_above_geoid specified: transient values set to zero no dsl.sea_water_pressure_at_sea_floor specified: transient values set to zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: solver residue: norm(KU-F)/norm(F)=1.22004e-11 mechanical equilibrium convergence criterion 100 > 0.01 % Convergence criterion: norm(du)/norm(u) 2.93163e+11 > 1 % Convergence criterion: max(du) 1.71957e-06 > 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=4.4539e-11 mechanical equilibrium convergence criterion 76.8235 > 0.01 % Convergence criterion: norm(du)/norm(u) 15.6455 > 1 % Convergence criterion: max(du) 4.09332e-07 > 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=9.17309e-11 mechanical equilibrium convergence criterion 38.5767 > 0.01 % Convergence criterion: norm(du)/norm(u) 11.2403 > 1 % Convergence criterion: max(du) 3.00053e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=1.6999e-10 mechanical equilibrium convergence criterion 24.567 > 0.01 % Convergence criterion: norm(du)/norm(u) 7.81407 > 1 % Convergence criterion: max(du) 2.08151e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.05812e-10 mechanical equilibrium convergence criterion 15.9808 > 0.01 % Convergence criterion: norm(du)/norm(u) 5.30991 > 1 % Convergence criterion: max(du) 1.43808e-07 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.17583e-10 mechanical equilibrium convergence criterion 10.0203 > 0.01 % Convergence criterion: norm(du)/norm(u) 3.55838 > 1 % Convergence criterion: max(du) 9.77761e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.36108e-10 mechanical equilibrium convergence criterion 6.28176 > 0.01 % Convergence criterion: norm(du)/norm(u) 2.36978 > 1 % Convergence criterion: max(du) 6.58033e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.59941e-10 mechanical equilibrium convergence criterion 3.98732 > 0.01 % Convergence criterion: norm(du)/norm(u) 1.57429 > 1 % Convergence criterion: max(du) 4.42306e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.56425e-10 mechanical equilibrium convergence criterion 2.56479 > 0.01 % Convergence criterion: norm(du)/norm(u) 1.04497 > 1 % Convergence criterion: max(du) 2.95422e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.80652e-10 mechanical equilibrium convergence criterion 1.6672 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.693537 < 1 % Convergence criterion: max(du) 1.96268e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.5014e-10 mechanical equilibrium convergence criterion 1.09168 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.460377 < 1 % Convergence criterion: max(du) 1.29995e-08 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.66211e-10 mechanical equilibrium convergence criterion 0.718201 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.305689 < 1 % Convergence criterion: max(du) 8.5961e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.55557e-10 mechanical equilibrium convergence criterion 0.473849 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.20304 < 1 % Convergence criterion: max(du) 5.68039e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.69322e-10 mechanical equilibrium convergence criterion 0.31315 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.1349 < 1 % Convergence criterion: max(du) 3.7532e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.96463e-10 mechanical equilibrium convergence criterion 0.207134 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0896529 < 1 % Convergence criterion: max(du) 2.48041e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.5647e-10 mechanical equilibrium convergence criterion 0.137068 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0595968 < 1 % Convergence criterion: max(du) 1.63991e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.79408e-10 mechanical equilibrium convergence criterion 0.090717 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0396256 < 1 % Convergence criterion: max(du) 1.08476e-09 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.64029e-10 mechanical equilibrium convergence criterion 0.0600398 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0263519 < 1 % Convergence criterion: max(du) 7.17916e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.74566e-10 mechanical equilibrium convergence criterion 0.0397332 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0175275 < 1 % Convergence criterion: max(du) 4.75381e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.79327e-10 mechanical equilibrium convergence criterion 0.0262916 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.0116599 < 1 % Convergence criterion: max(du) 3.14939e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.35241e-10 mechanical equilibrium convergence criterion 0.0173951 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.00775754 < 1 % Convergence criterion: max(du) 2.08743e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.50621e-10 mechanical equilibrium convergence criterion 0.0115076 > 0.01 % Convergence criterion: norm(du)/norm(u) 0.00516182 < 1 % Convergence criterion: max(du) 1.38415e-10 < 3.17098e-07 number of unstable constraints: 0 solver residue: norm(KU-F)/norm(F)=2.65759e-10 mechanical equilibrium convergence criterion 0.00761203 < 0.01 % Convergence criterion: norm(du)/norm(u) 0.003435 < 1 % Convergence criterion: max(du) 9.18157e-11 < 3.17098e-07 number of unstable constraints: 0 total number of iterations: 23 solver residue: norm(KU-F)/norm(F)=1.26315e-14 write lock file: FemModel initialization elapsed time: 0.117266 Total Core solution elapsed time: 9.16884 Linear solver elapsed time: 4.73532 (52%) Total elapsed time: 0 hrs 0 min 9 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-IceBridge +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 8288 Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating surface and bedrock Constructing thickness reading IceBridge Jakobshavn bedrock Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions Set geothermal heat flux Set Pressure Single point constraints Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 27065.6 | 5900.203 21165.4 7.69751e-32 x = 1 | f(x) = 17034.49 | 3078.516 13955.94 0.03857034 ====================== step 2/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 17032.65 | 3077.388 13955.23 0.03857034 x = 1 | f(x) = 11029.03 | 1769.281 9259.544 0.2059931 ====================== step 3/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 11026.43 | 1766.95 9259.277 0.2059931 x = 1 | f(x) = 9081.232 | 1408.483 7672.37 0.3791164 ====================== step 4/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 9086.581 | 1415.848 7670.353 0.3791164 x = 1 | f(x) = 8715.311 | 1336.523 7378.36 0.4275718 ====================== step 5/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 8715.226 | 1336.434 7378.364 0.4275718 x = 1 | f(x) = 8573.931 | 1291.502 7281.982 0.4465695 ====================== step 6/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 8572.735 | 1290.437 7281.852 0.4465695 x = 1 | f(x) = 7716.488 | 1183.03 6532.81 0.6481422 ====================== step 7/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7756.682 | 1223.917 6532.117 0.6481422 x = 1 | f(x) = 7489.554 | 1056.254 6432.615 0.6851672 ====================== step 8/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7491.419 | 1058.204 6432.529 0.6851672 x = 1 | f(x) = 6994.312 | 1036.461 5956.977 0.8747352 ====================== step 9/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7025.843 | 1068.729 5956.24 0.8747352 x = 1 | f(x) = 6861.466 | 960.691 5899.871 0.9040446 ====================== step 10/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6862.929 | 962.2429 5899.782 0.9040446 x = 1 | f(x) = 6488.92 | 900.8583 5586.998 1.063107 ====================== step 11/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6502 | 914.4696 5586.468 1.063107 x = 1 | f(x) = 6390.493 | 908.1139 5481.242 1.13734 ====================== step 12/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6392.904 | 910.7105 5481.056 1.13734 x = 1 | f(x) = 6076.699 | 813.1729 5262.244 1.282287 ====================== step 13/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6083.601 | 820.3323 5261.986 1.282287 x = 1 | f(x) = 5998.763 | 842.841 5154.538 1.384334 ====================== step 14/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6000.41 | 844.7097 5154.316 1.384334 x = 1 | f(x) = 5805.949 | 792.0692 5012.378 1.501603 ====================== step 15/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5810.177 | 796.6477 5012.027 1.501603 x = 1 | f(x) = 5733.63 | 792.0338 4940.02 1.576293 ====================== step 16/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5735.879 | 794.3976 4939.905 1.576293 x = 1 | f(x) = 5594.183 | 780.2389 4812.231 1.713061 ====================== step 17/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5613.852 | 800.1366 4812.002 1.713061 x = 1 | f(x) = 5525.625 | 724.8518 4799.047 1.726943 ====================== step 18/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5526.085 | 725.3567 4799.001 1.726943 x = 1 | f(x) = 5472.257 | 757.6889 4712.724 1.844519 x = 0.381966 | f(x) = 5470.056 | 706.7403 4761.544 1.771066 ====================== step 19/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5470.153 | 705.5893 4762.792 1.771066 x = 1 | f(x) = 5348.065 | 689.2742 4656.866 1.924838 ====================== step 20/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5349.063 | 690.5543 4656.583 1.924838 x = 1 | f(x) = 5323.264 | 725.9752 4595.258 2.031613 x = 0.381966 | f(x) = 5318.111 | 685.6298 4630.518 1.963546 x = 0.618034 | f(x) = 5308.632 | 689.069 4617.574 1.988759 x = 0.763932 | f(x) = 5310.748 | 699.9833 4608.76 2.004853 x = 0.640305 | f(x) = 5312.108 | 694.3663 4615.751 1.991192 x = 0.527864 | f(x) = 5311.407 | 686.9596 4622.469 1.979004 ====================== step 21/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5309.026 | 689.6317 4617.406 1.988759 x = 1 | f(x) = 5275.422 | 699.2334 4574.118 2.070806 x = 0.381966 | f(x) = 5274.799 | 674.2207 4598.559 2.018629 x = 0.618034 | f(x) = 5270.697 | 679.0485 4589.61 2.03799 x = 0.763932 | f(x) = 5271.927 | 686.2973 4583.58 2.050284 x = 0.628574 | f(x) = 5272.884 | 682.0866 4588.758 2.038868 x = 0.527864 | f(x) = 5273.653 | 678.6367 4592.985 2.030532 ====================== step 22/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5272.459 | 680.9517 4589.47 2.03799 x = 1 | f(x) = 5241.616 | 666.7242 4572.824 2.067936 x = 0.381966 | f(x) = 5258.164 | 673.5841 4582.53 2.049306 x = 0.618034 | f(x) = 5251.629 | 670.7857 4578.787 2.056385 x = 0.763932 | f(x) = 5247.083 | 668.7172 4576.305 2.060781 x = 0.854102 | f(x) = 5244.291 | 667.4734 4574.754 2.063509 x = 0.90983 | f(x) = 5242.609 | 666.7515 4573.793 2.0652 ====================== step 23/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5240.169 | 665.809 4572.292 2.067936 x = 1 | f(x) = 5220.71 | 661.7395 4556.873 2.097223 x = 0.381966 | f(x) = 5231.626 | 663.6697 4565.877 2.079048 x = 0.618034 | f(x) = 5227.433 | 662.8709 4562.476 2.085961 x = 0.763932 | f(x) = 5224.646 | 662.4136 4560.142 2.090252 x = 0.854102 | f(x) = 5222.961 | 662.1916 4558.677 2.092911 x = 0.90983 | f(x) = 5221.949 | 662.0857 4557.769 2.094556 ====================== step 24/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5220.387 | 661.933 4556.356 2.097223 x = 1 | f(x) = 5202.337 | 659.3586 4540.852 2.126991 x = 0.381966 | f(x) = 5212.61 | 660.6193 4549.883 2.108547 x = 0.618034 | f(x) = 5208.714 | 660.1207 4546.477 2.115567 x = 0.763932 | f(x) = 5205.972 | 659.7097 4544.143 2.119922 x = 0.854102 | f(x) = 5204.236 | 659.4346 4542.679 2.122618 x = 0.90983 | f(x) = 5203.155 | 659.2591 4541.772 2.124287 ====================== step 25/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5201.5 | 659.0157 4540.357 2.126991 x = 1 | f(x) = 5183.849 | 656.5169 4525.176 2.156824 x = 0.381966 | f(x) = 5193.993 | 657.867 4533.987 2.138348 x = 0.618034 | f(x) = 5190.14 | 657.3415 4530.653 2.145382 x = 0.763932 | f(x) = 5187.486 | 656.9568 4528.38 2.149744 x = 0.854102 | f(x) = 5185.818 | 656.7082 4526.957 2.152446 x = 0.90983 | f(x) = 5184.782 | 656.5514 4526.076 2.154118 ====================== step 26/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5183.181 | 656.3184 4524.706 2.156824 x = 1 | f(x) = 5166.265 | 653.8609 4510.217 2.186693 x = 0.381966 | f(x) = 5176.005 | 655.1622 4518.675 2.168182 x = 0.618034 | f(x) = 5172.318 | 654.6566 4515.486 2.175229 x = 0.763932 | f(x) = 5169.752 | 654.2676 4513.305 2.179599 x = 0.854102 | f(x) = 5168.13 | 654.0103 4511.938 2.182305 x = 0.90983 | f(x) = 5167.121 | 653.846 4511.091 2.18398 ====================== step 27/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5165.563 | 653.6068 4509.769 2.186693 x = 1 | f(x) = 5149.028 | 651.1024 4495.709 2.216675 x = 0.381966 | f(x) = 5158.561 | 652.4536 4503.909 2.198097 x = 0.618034 | f(x) = 5154.957 | 651.9305 4500.822 2.20517 x = 0.763932 | f(x) = 5152.451 | 651.537 4498.705 2.209556 x = 0.854102 | f(x) = 5150.868 | 651.2792 4497.376 2.212272 x = 0.90983 | f(x) = 5149.882 | 651.1152 4496.552 2.213952 ====================== step 28/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5148.356 | 650.8733 4495.266 2.216675 x = 1 | f(x) = 5131.941 | 648.2739 4481.42 2.246887 x = 0.381966 | f(x) = 5141.41 | 649.6736 4489.508 2.228155 x = 0.618034 | f(x) = 5137.836 | 649.1336 4486.467 2.235287 x = 0.763932 | f(x) = 5135.338 | 648.7232 4484.375 2.239709 x = 0.854102 | f(x) = 5133.757 | 648.4536 4483.061 2.242448 x = 0.90983 | f(x) = 5132.772 | 648.2819 4482.246 2.244142 ====================== step 29/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5131.251 | 648.0296 4480.975 2.246887 x = 1 | f(x) = 5114.658 | 645.3687 4467.012 2.277491 x = 0.381966 | f(x) = 5124.202 | 646.7884 4475.155 2.25852 x = 0.618034 | f(x) = 5120.59 | 646.2391 4472.085 2.265744 x = 0.763932 | f(x) = 5118.074 | 645.8201 4469.984 2.270222 x = 0.854102 | f(x) = 5116.483 | 645.5459 4468.665 2.272995 x = 0.90983 | f(x) = 5115.489 | 645.3718 4467.842 2.274711 ====================== step 30/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5113.944 | 645.1173 4466.549 2.277491 x = 1 | f(x) = 5097.497 | 642.6618 4452.527 2.308463 x = 0.381966 | f(x) = 5106.725 | 643.844 4460.592 2.289275 x = 0.618034 | f(x) = 5103.098 | 643.2994 4457.502 2.296598 x = 0.763932 | f(x) = 5100.679 | 642.9634 4455.415 2.301124 x = 0.854102 | f(x) = 5099.157 | 642.7437 4454.109 2.303926 x = 0.90983 | f(x) = 5098.211 | 642.6029 4453.303 2.305658 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.118434 Total Core solution elapsed time: 43.3181 Linear solver elapsed time: 20.9269 (48%) Total elapsed time: 0 hrs 0 min 43 sec loading results from cluster Step 4: Transient run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/100 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.09223e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 40.0062 > 1 % Convergence criterion: norm(du)/norm(u) 51.744 > 10 % Convergence criterion: max(du) 0.000156722 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96592e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 3.83978 > 1 % Convergence criterion: norm(du)/norm(u) 5.93163 < 10 % Convergence criterion: max(du) 1.86578e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03791e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 1.03774 > 1 % Convergence criterion: norm(du)/norm(u) 2.37988 < 10 % Convergence criterion: max(du) 7.83442e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.69089e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.258198 < 1 % Convergence criterion: norm(du)/norm(u) 1.07426 < 10 % Convergence criterion: max(du) 3.84522e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 4 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.51143e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/100 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.84203e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.579836 < 1 % Convergence criterion: norm(du)/norm(u) 42.6946 > 10 % Convergence criterion: max(du) 0.000129592 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99595e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.181112 < 1 % Convergence criterion: norm(du)/norm(u) 4.8599 < 10 % Convergence criterion: max(du) 1.22631e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04613e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 3/100 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.76604e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.29581 < 1 % Convergence criterion: norm(du)/norm(u) 23.2133 > 10 % Convergence criterion: max(du) 5.30421e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.01787e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0922583 < 1 % Convergence criterion: norm(du)/norm(u) 4.30905 < 10 % Convergence criterion: max(du) 1.56862e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.80925e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 4/100 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62929e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.198505 < 1 % Convergence criterion: norm(du)/norm(u) 12.4286 > 10 % Convergence criterion: max(du) 4.50849e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90702e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.054312 < 1 % Convergence criterion: norm(du)/norm(u) 4.66342 < 10 % Convergence criterion: max(du) 2.38723e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73965e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 5/100 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86635e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.165193 < 1 % Convergence criterion: norm(du)/norm(u) 10.4077 > 10 % Convergence criterion: max(du) 4.82107e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.7247e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0476213 < 1 % Convergence criterion: norm(du)/norm(u) 5.44265 < 10 % Convergence criterion: max(du) 2.84468e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.68408e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/100 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12108e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.149263 < 1 % Convergence criterion: norm(du)/norm(u) 9.21398 < 10 % Convergence criterion: max(du) 4.63752e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82047e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 7/100 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.94131e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.157105 < 1 % Convergence criterion: norm(du)/norm(u) 9.33302 < 10 % Convergence criterion: max(du) 5.19675e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.69406e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 8/100 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12358e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.154827 < 1 % Convergence criterion: norm(du)/norm(u) 8.22583 < 10 % Convergence criterion: max(du) 5.03355e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61522e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 9/100 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03605e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.149702 < 1 % Convergence criterion: norm(du)/norm(u) 6.67201 < 10 % Convergence criterion: max(du) 4.4308e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84835e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 10/100 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10827e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.144213 < 1 % Convergence criterion: norm(du)/norm(u) 5.15722 < 10 % Convergence criterion: max(du) 3.64248e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78938e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/100 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96106e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.138839 < 1 % Convergence criterion: norm(du)/norm(u) 3.91063 < 10 % Convergence criterion: max(du) 2.8626e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.52823e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 12/100 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8092e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.133785 < 1 % Convergence criterion: norm(du)/norm(u) 2.98574 < 10 % Convergence criterion: max(du) 2.20048e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79428e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 13/100 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72302e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.129165 < 1 % Convergence criterion: norm(du)/norm(u) 2.34244 < 10 % Convergence criterion: max(du) 1.69106e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.54674e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 14/100 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99231e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.124927 < 1 % Convergence criterion: norm(du)/norm(u) 1.90948 < 10 % Convergence criterion: max(du) 1.32356e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75856e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 15/100 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72208e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.121046 < 1 % Convergence criterion: norm(du)/norm(u) 1.61812 < 10 % Convergence criterion: max(du) 1.06836e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74922e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/100 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89042e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.117504 < 1 % Convergence criterion: norm(du)/norm(u) 1.41647 < 10 % Convergence criterion: max(du) 8.93782e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.43686e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 17/100 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.2092e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.114284 < 1 % Convergence criterion: norm(du)/norm(u) 1.27046 < 10 % Convergence criterion: max(du) 7.73462e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84765e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 18/100 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.82157e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.111367 < 1 % Convergence criterion: norm(du)/norm(u) 1.1594 < 10 % Convergence criterion: max(du) 6.88107e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72979e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 19/100 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.1063e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.108733 < 1 % Convergence criterion: norm(du)/norm(u) 1.07113 < 10 % Convergence criterion: max(du) 6.24711e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76324e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 20/100 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.05523e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.106356 < 1 % Convergence criterion: norm(du)/norm(u) 0.998493 < 10 % Convergence criterion: max(du) 5.75025e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.58735e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/100 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89603e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.104206 < 1 % Convergence criterion: norm(du)/norm(u) 0.937125 < 10 % Convergence criterion: max(du) 5.3407e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85673e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 22/100 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86398e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.102251 < 1 % Convergence criterion: norm(du)/norm(u) 0.884247 < 10 % Convergence criterion: max(du) 4.98966e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.16754e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 23/100 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.14905e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.100465 < 1 % Convergence criterion: norm(du)/norm(u) 0.838226 < 10 % Convergence criterion: max(du) 4.68095e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67697e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 24/100 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96856e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0988228 < 1 % Convergence criterion: norm(du)/norm(u) 0.797679 < 10 % Convergence criterion: max(du) 4.40552e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67276e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 25/100 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99982e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0973049 < 1 % Convergence criterion: norm(du)/norm(u) 0.761639 < 10 % Convergence criterion: max(du) 4.15807e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82257e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/100 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89713e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.09589 < 1 % Convergence criterion: norm(du)/norm(u) 0.729262 < 10 % Convergence criterion: max(du) 3.93508e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.49363e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 27/100 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88832e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0945622 < 1 % Convergence criterion: norm(du)/norm(u) 0.699987 < 10 % Convergence criterion: max(du) 3.73383e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75734e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 28/100 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.85976e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0933088 < 1 % Convergence criterion: norm(du)/norm(u) 0.673373 < 10 % Convergence criterion: max(du) 3.55194e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65269e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 29/100 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75977e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0921186 < 1 % Convergence criterion: norm(du)/norm(u) 0.649074 < 10 % Convergence criterion: max(du) 3.38733e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74177e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 30/100 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81531e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0909765 < 1 % Convergence criterion: norm(du)/norm(u) 0.626782 < 10 % Convergence criterion: max(du) 3.23787e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.22844e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/100 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.22427e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0898938 < 1 % Convergence criterion: norm(du)/norm(u) 0.606266 < 10 % Convergence criterion: max(du) 3.1018e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91519e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 32/100 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.73929e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0888679 < 1 % Convergence criterion: norm(du)/norm(u) 0.587377 < 10 % Convergence criterion: max(du) 2.97749e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78989e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 33/100 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79511e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0878845 < 1 % Convergence criterion: norm(du)/norm(u) 0.570048 < 10 % Convergence criterion: max(du) 2.86347e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83319e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 34/100 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.91645e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0869359 < 1 % Convergence criterion: norm(du)/norm(u) 0.554064 < 10 % Convergence criterion: max(du) 2.75845e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67261e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 35/100 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71269e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0860176 < 1 % Convergence criterion: norm(du)/norm(u) 0.539173 < 10 % Convergence criterion: max(du) 2.6613e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98654e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/100 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99877e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0851273 < 1 % Convergence criterion: norm(du)/norm(u) 0.525203 < 10 % Convergence criterion: max(du) 2.5711e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63606e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 37/100 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.04542e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0842647 < 1 % Convergence criterion: norm(du)/norm(u) 0.51205 < 10 % Convergence criterion: max(du) 2.48706e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.5801e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 38/100 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.80554e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0834299 < 1 % Convergence criterion: norm(du)/norm(u) 0.499628 < 10 % Convergence criterion: max(du) 2.40854e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65965e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 39/100 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.97848e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0826229 < 1 % Convergence criterion: norm(du)/norm(u) 0.487841 < 10 % Convergence criterion: max(du) 2.33498e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85516e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 40/100 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.83641e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.081843 < 1 % Convergence criterion: norm(du)/norm(u) 0.47662 < 10 % Convergence criterion: max(du) 2.2659e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9513e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/100 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8257e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0810856 < 1 % Convergence criterion: norm(du)/norm(u) 0.465877 < 10 % Convergence criterion: max(du) 2.20091e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77254e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 42/100 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.02118e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0803506 < 1 % Convergence criterion: norm(du)/norm(u) 0.455531 < 10 % Convergence criterion: max(du) 2.13964e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62357e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 43/100 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95356e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0796359 < 1 % Convergence criterion: norm(du)/norm(u) 0.445517 < 10 % Convergence criterion: max(du) 2.08176e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63621e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 44/100 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.82824e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.07894 < 1 % Convergence criterion: norm(du)/norm(u) 0.435768 < 10 % Convergence criterion: max(du) 2.02701e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.66286e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 45/100 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81567e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0782614 < 1 % Convergence criterion: norm(du)/norm(u) 0.42629 < 10 % Convergence criterion: max(du) 1.97513e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88786e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/100 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95219e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0775988 < 1 % Convergence criterion: norm(du)/norm(u) 0.417072 < 10 % Convergence criterion: max(du) 1.9259e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82525e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 47/100 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.05582e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0769509 < 1 % Convergence criterion: norm(du)/norm(u) 0.408118 < 10 % Convergence criterion: max(du) 1.8791e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59457e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 48/100 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.119e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0763168 < 1 % Convergence criterion: norm(du)/norm(u) 0.399417 < 10 % Convergence criterion: max(du) 1.83457e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85199e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 49/100 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.39839e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0756956 < 1 % Convergence criterion: norm(du)/norm(u) 0.390975 < 10 % Convergence criterion: max(du) 1.79214e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77225e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 50/100 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8478e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0750865 < 1 % Convergence criterion: norm(du)/norm(u) 0.382779 < 10 % Convergence criterion: max(du) 1.75173e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59014e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/100 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90478e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0744891 < 1 % Convergence criterion: norm(du)/norm(u) 0.374844 < 10 % Convergence criterion: max(du) 1.71313e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82529e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 52/100 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.9389e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0739079 < 1 % Convergence criterion: norm(du)/norm(u) 0.362827 < 10 % Convergence criterion: max(du) 1.6621e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61386e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 53/100 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95683e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0733373 < 1 % Convergence criterion: norm(du)/norm(u) 0.350628 < 10 % Convergence criterion: max(du) 1.60939e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90886e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 54/100 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10289e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0727769 < 1 % Convergence criterion: norm(du)/norm(u) 0.33879 < 10 % Convergence criterion: max(du) 1.55893e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9533e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 55/100 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88502e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0722264 < 1 % Convergence criterion: norm(du)/norm(u) 0.327423 < 10 % Convergence criterion: max(du) 1.51167e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74204e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/100 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.06961e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0716855 < 1 % Convergence criterion: norm(du)/norm(u) 0.316536 < 10 % Convergence criterion: max(du) 1.4676e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.64767e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 57/100 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.09359e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0711543 < 1 % Convergence criterion: norm(du)/norm(u) 0.306126 < 10 % Convergence criterion: max(du) 1.42643e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70239e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 58/100 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.32123e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0706323 < 1 % Convergence criterion: norm(du)/norm(u) 0.296179 < 10 % Convergence criterion: max(du) 1.38775e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.97828e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 59/100 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.65422e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0701194 < 1 % Convergence criterion: norm(du)/norm(u) 0.286654 < 10 % Convergence criterion: max(du) 1.35119e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73294e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 60/100 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03246e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0696153 < 1 % Convergence criterion: norm(du)/norm(u) 0.277549 < 10 % Convergence criterion: max(du) 1.3164e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.09671e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/100 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10365e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0691199 < 1 % Convergence criterion: norm(du)/norm(u) 0.268864 < 10 % Convergence criterion: max(du) 1.28311e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86058e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 62/100 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.00099e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.068633 < 1 % Convergence criterion: norm(du)/norm(u) 0.260586 < 10 % Convergence criterion: max(du) 1.25112e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73467e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 63/100 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.9449e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0681543 < 1 % Convergence criterion: norm(du)/norm(u) 0.252703 < 10 % Convergence criterion: max(du) 1.22026e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96854e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 64/100 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.64099e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0676835 < 1 % Convergence criterion: norm(du)/norm(u) 0.245188 < 10 % Convergence criterion: max(du) 1.19043e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65746e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 65/100 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.23996e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0672203 < 1 % Convergence criterion: norm(du)/norm(u) 0.237927 < 10 % Convergence criterion: max(du) 1.16154e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.7634e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/100 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.92004e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0667652 < 1 % Convergence criterion: norm(du)/norm(u) 0.231092 < 10 % Convergence criterion: max(du) 1.13352e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.8578e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 67/100 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10259e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0663172 < 1 % Convergence criterion: norm(du)/norm(u) 0.22462 < 10 % Convergence criterion: max(du) 1.10633e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98464e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 68/100 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79802e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0658764 < 1 % Convergence criterion: norm(du)/norm(u) 0.218499 < 10 % Convergence criterion: max(du) 1.0799e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91322e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 69/100 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.02886e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0654425 < 1 % Convergence criterion: norm(du)/norm(u) 0.212706 < 10 % Convergence criterion: max(du) 1.0542e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.71549e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 70/100 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86881e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0650153 < 1 % Convergence criterion: norm(du)/norm(u) 0.20725 < 10 % Convergence criterion: max(du) 1.02919e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81617e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/100 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.78058e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0645949 < 1 % Convergence criterion: norm(du)/norm(u) 0.202082 < 10 % Convergence criterion: max(du) 1.00482e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.46388e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 72/100 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.26043e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0641809 < 1 % Convergence criterion: norm(du)/norm(u) 0.197233 < 10 % Convergence criterion: max(du) 9.81074e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.58155e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 73/100 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.25195e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0637733 < 1 % Convergence criterion: norm(du)/norm(u) 0.192578 < 10 % Convergence criterion: max(du) 9.57908e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.56169e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 74/100 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90375e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.063372 < 1 % Convergence criterion: norm(du)/norm(u) 0.188381 < 10 % Convergence criterion: max(du) 9.3529e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62269e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 75/100 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.15508e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0629767 < 1 % Convergence criterion: norm(du)/norm(u) 0.18449 < 10 % Convergence criterion: max(du) 9.13182e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/100 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.30995e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0625876 < 1 % Convergence criterion: norm(du)/norm(u) 0.180899 < 10 % Convergence criterion: max(du) 8.91577e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.49007e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 77/100 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12299e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0622044 < 1 % Convergence criterion: norm(du)/norm(u) 0.177604 < 10 % Convergence criterion: max(du) 8.70459e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70474e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 78/100 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96837e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0618266 < 1 % Convergence criterion: norm(du)/norm(u) 0.174598 < 10 % Convergence criterion: max(du) 8.49801e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77584e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 79/100 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86134e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0614541 < 1 % Convergence criterion: norm(du)/norm(u) 0.171868 < 10 % Convergence criterion: max(du) 8.42481e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.56416e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 80/100 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.65985e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0610872 < 1 % Convergence criterion: norm(du)/norm(u) 0.169371 < 10 % Convergence criterion: max(du) 8.5016e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81275e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/100 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.94243e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0607257 < 1 % Convergence criterion: norm(du)/norm(u) 0.166878 < 10 % Convergence criterion: max(du) 8.56847e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82001e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 82/100 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.97888e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0603694 < 1 % Convergence criterion: norm(du)/norm(u) 0.164926 < 10 % Convergence criterion: max(du) 8.62499e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.19232e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 83/100 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.59618e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0600192 < 1 % Convergence criterion: norm(du)/norm(u) 0.163357 < 10 % Convergence criterion: max(du) 8.72759e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6725e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 84/100 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.74431e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0596741 < 1 % Convergence criterion: norm(du)/norm(u) 0.162021 < 10 % Convergence criterion: max(du) 8.81599e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.46396e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 85/100 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81627e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0593326 < 1 % Convergence criterion: norm(du)/norm(u) 0.160712 < 10 % Convergence criterion: max(du) 8.84127e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.45952e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/100 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79515e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0589956 < 1 % Convergence criterion: norm(du)/norm(u) 0.159568 < 10 % Convergence criterion: max(du) 8.8477e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.51294e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 87/100 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8294e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0586632 < 1 % Convergence criterion: norm(du)/norm(u) 0.158695 < 10 % Convergence criterion: max(du) 8.83843e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.03352e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 88/100 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.0172e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0583353 < 1 % Convergence criterion: norm(du)/norm(u) 0.158032 < 10 % Convergence criterion: max(du) 8.81648e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81061e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 89/100 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89271e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0580117 < 1 % Convergence criterion: norm(du)/norm(u) 0.157615 < 10 % Convergence criterion: max(du) 8.78242e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.71492e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 90/100 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.91209e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0576926 < 1 % Convergence criterion: norm(du)/norm(u) 0.157574 < 10 % Convergence criterion: max(du) 8.73655e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94964e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/100 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.00765e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0573778 < 1 % Convergence criterion: norm(du)/norm(u) 0.157866 < 10 % Convergence criterion: max(du) 8.67918e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84296e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 92/100 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95899e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0570669 < 1 % Convergence criterion: norm(du)/norm(u) 0.158338 < 10 % Convergence criterion: max(du) 8.61067e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88742e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 93/100 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68686e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0567599 < 1 % Convergence criterion: norm(du)/norm(u) 0.158938 < 10 % Convergence criterion: max(du) 8.53142e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.95539e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 94/100 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53757e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0564556 < 1 % Convergence criterion: norm(du)/norm(u) 0.159689 < 10 % Convergence criterion: max(du) 8.44192e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67251e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 95/100 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62914e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0561557 < 1 % Convergence criterion: norm(du)/norm(u) 0.160629 < 10 % Convergence criterion: max(du) 8.34268e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61681e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/100 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.92136e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.05586 < 1 % Convergence criterion: norm(du)/norm(u) 0.161758 < 10 % Convergence criterion: max(du) 8.23427e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86806e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 97/100 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.24742e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0555678 < 1 % Convergence criterion: norm(du)/norm(u) 0.162987 < 10 % Convergence criterion: max(du) 8.11726e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04524e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 98/100 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.70217e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0552798 < 1 % Convergence criterion: norm(du)/norm(u) 0.164309 < 10 % Convergence criterion: max(du) 7.9923e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96292e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 99/100 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88142e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0549959 < 1 % Convergence criterion: norm(du)/norm(u) 0.166002 < 10 % Convergence criterion: max(du) 7.86001e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.05831e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 100/100 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.78073e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0547161 < 1 % Convergence criterion: norm(du)/norm(u) 0.167956 < 10 % Convergence criterion: max(du) 7.74989e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.19113e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.108307 Total Core solution elapsed time: 31.0004 Linear solver elapsed time: 15.7852 (51%) Total elapsed time: 0 hrs 0 min 31 sec loading results from cluster Step 5: Plotting SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-IceBridge +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 8288 Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating surface and bedrock Constructing thickness reading IceBridge Jakobshavn bedrock Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions Set geothermal heat flux Set Pressure Single point constraints Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 27065.6 | 5900.203 21165.4 7.69751e-32 x = 1 | f(x) = 17034.49 | 3078.516 13955.94 0.03857034 ====================== step 2/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 17032.65 | 3077.388 13955.23 0.03857034 x = 1 | f(x) = 11029.03 | 1769.281 9259.544 0.2059931 ====================== step 3/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 11026.43 | 1766.95 9259.277 0.2059931 x = 1 | f(x) = 9081.232 | 1408.483 7672.37 0.3791164 ====================== step 4/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 9086.581 | 1415.848 7670.353 0.3791164 x = 1 | f(x) = 8715.311 | 1336.523 7378.36 0.4275718 ====================== step 5/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 8715.226 | 1336.434 7378.364 0.4275718 x = 1 | f(x) = 8573.931 | 1291.502 7281.982 0.4465695 ====================== step 6/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 8572.735 | 1290.437 7281.852 0.4465695 x = 1 | f(x) = 7716.488 | 1183.03 6532.81 0.6481422 ====================== step 7/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7756.682 | 1223.917 6532.117 0.6481422 x = 1 | f(x) = 7489.554 | 1056.254 6432.615 0.6851672 ====================== step 8/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7491.419 | 1058.204 6432.529 0.6851672 x = 1 | f(x) = 6994.312 | 1036.461 5956.977 0.8747352 ====================== step 9/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 7025.843 | 1068.729 5956.24 0.8747352 x = 1 | f(x) = 6861.466 | 960.691 5899.871 0.9040446 ====================== step 10/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6862.929 | 962.2429 5899.782 0.9040446 x = 1 | f(x) = 6488.92 | 900.8583 5586.998 1.063107 ====================== step 11/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6502 | 914.4696 5586.468 1.063107 x = 1 | f(x) = 6390.493 | 908.1139 5481.242 1.13734 ====================== step 12/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6392.904 | 910.7105 5481.056 1.13734 x = 1 | f(x) = 6076.699 | 813.1729 5262.244 1.282287 ====================== step 13/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6083.601 | 820.3323 5261.986 1.282287 x = 1 | f(x) = 5998.763 | 842.841 5154.538 1.384334 ====================== step 14/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 6000.41 | 844.7097 5154.316 1.384334 x = 1 | f(x) = 5805.949 | 792.0692 5012.378 1.501603 ====================== step 15/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5810.177 | 796.6477 5012.027 1.501603 x = 1 | f(x) = 5733.63 | 792.0338 4940.02 1.576293 ====================== step 16/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5735.879 | 794.3976 4939.905 1.576293 x = 1 | f(x) = 5594.183 | 780.2389 4812.231 1.713061 ====================== step 17/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5613.852 | 800.1366 4812.002 1.713061 x = 1 | f(x) = 5525.625 | 724.8518 4799.047 1.726943 ====================== step 18/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5526.085 | 725.3567 4799.001 1.726943 x = 1 | f(x) = 5472.257 | 757.6889 4712.724 1.844519 x = 0.381966 | f(x) = 5470.056 | 706.7403 4761.544 1.771066 ====================== step 19/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5470.153 | 705.5893 4762.792 1.771066 x = 1 | f(x) = 5348.065 | 689.2742 4656.866 1.924838 ====================== step 20/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5349.063 | 690.5543 4656.583 1.924838 x = 1 | f(x) = 5323.264 | 725.9752 4595.258 2.031613 x = 0.381966 | f(x) = 5318.111 | 685.6298 4630.518 1.963546 x = 0.618034 | f(x) = 5308.632 | 689.069 4617.574 1.988759 x = 0.763932 | f(x) = 5310.748 | 699.9833 4608.76 2.004853 x = 0.640305 | f(x) = 5312.108 | 694.3663 4615.751 1.991192 x = 0.527864 | f(x) = 5311.407 | 686.9596 4622.469 1.979004 ====================== step 21/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5309.026 | 689.6317 4617.406 1.988759 x = 1 | f(x) = 5275.422 | 699.2334 4574.118 2.070806 x = 0.381966 | f(x) = 5274.799 | 674.2207 4598.559 2.018629 x = 0.618034 | f(x) = 5270.697 | 679.0485 4589.61 2.03799 x = 0.763932 | f(x) = 5271.927 | 686.2973 4583.58 2.050284 x = 0.628574 | f(x) = 5272.884 | 682.0866 4588.758 2.038868 x = 0.527864 | f(x) = 5273.653 | 678.6367 4592.985 2.030532 ====================== step 22/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5272.459 | 680.9517 4589.47 2.03799 x = 1 | f(x) = 5241.616 | 666.7242 4572.824 2.067936 x = 0.381966 | f(x) = 5258.164 | 673.5841 4582.53 2.049306 x = 0.618034 | f(x) = 5251.629 | 670.7857 4578.787 2.056385 x = 0.763932 | f(x) = 5247.083 | 668.7172 4576.305 2.060781 x = 0.854102 | f(x) = 5244.291 | 667.4734 4574.754 2.063509 x = 0.90983 | f(x) = 5242.609 | 666.7515 4573.793 2.0652 ====================== step 23/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5240.169 | 665.809 4572.292 2.067936 x = 1 | f(x) = 5220.71 | 661.7395 4556.873 2.097223 x = 0.381966 | f(x) = 5231.626 | 663.6697 4565.877 2.079048 x = 0.618034 | f(x) = 5227.433 | 662.8709 4562.476 2.085961 x = 0.763932 | f(x) = 5224.646 | 662.4136 4560.142 2.090252 x = 0.854102 | f(x) = 5222.961 | 662.1916 4558.677 2.092911 x = 0.90983 | f(x) = 5221.949 | 662.0857 4557.769 2.094556 ====================== step 24/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5220.387 | 661.933 4556.356 2.097223 x = 1 | f(x) = 5202.337 | 659.3586 4540.852 2.126991 x = 0.381966 | f(x) = 5212.61 | 660.6193 4549.883 2.108547 x = 0.618034 | f(x) = 5208.714 | 660.1207 4546.477 2.115567 x = 0.763932 | f(x) = 5205.972 | 659.7097 4544.143 2.119922 x = 0.854102 | f(x) = 5204.236 | 659.4346 4542.679 2.122618 x = 0.90983 | f(x) = 5203.155 | 659.2591 4541.772 2.124287 ====================== step 25/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5201.5 | 659.0157 4540.357 2.126991 x = 1 | f(x) = 5183.849 | 656.5169 4525.176 2.156824 x = 0.381966 | f(x) = 5193.993 | 657.867 4533.987 2.138348 x = 0.618034 | f(x) = 5190.14 | 657.3415 4530.653 2.145382 x = 0.763932 | f(x) = 5187.486 | 656.9568 4528.38 2.149744 x = 0.854102 | f(x) = 5185.818 | 656.7082 4526.957 2.152446 x = 0.90983 | f(x) = 5184.782 | 656.5514 4526.076 2.154118 ====================== step 26/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5183.181 | 656.3184 4524.706 2.156824 x = 1 | f(x) = 5166.265 | 653.8609 4510.217 2.186693 x = 0.381966 | f(x) = 5176.005 | 655.1622 4518.675 2.168182 x = 0.618034 | f(x) = 5172.318 | 654.6566 4515.486 2.175229 x = 0.763932 | f(x) = 5169.752 | 654.2676 4513.305 2.179599 x = 0.854102 | f(x) = 5168.13 | 654.0103 4511.938 2.182305 x = 0.90983 | f(x) = 5167.121 | 653.846 4511.091 2.18398 ====================== step 27/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5165.563 | 653.6068 4509.769 2.186693 x = 1 | f(x) = 5149.028 | 651.1024 4495.709 2.216675 x = 0.381966 | f(x) = 5158.561 | 652.4536 4503.909 2.198097 x = 0.618034 | f(x) = 5154.957 | 651.9305 4500.822 2.20517 x = 0.763932 | f(x) = 5152.451 | 651.537 4498.705 2.209556 x = 0.854102 | f(x) = 5150.868 | 651.2792 4497.376 2.212272 x = 0.90983 | f(x) = 5149.882 | 651.1152 4496.552 2.213952 ====================== step 28/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5148.356 | 650.8733 4495.266 2.216675 x = 1 | f(x) = 5131.941 | 648.2739 4481.42 2.246887 x = 0.381966 | f(x) = 5141.41 | 649.6736 4489.508 2.228155 x = 0.618034 | f(x) = 5137.836 | 649.1336 4486.467 2.235287 x = 0.763932 | f(x) = 5135.338 | 648.7232 4484.375 2.239709 x = 0.854102 | f(x) = 5133.757 | 648.4536 4483.061 2.242448 x = 0.90983 | f(x) = 5132.772 | 648.2819 4482.246 2.244142 ====================== step 29/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5131.251 | 648.0296 4480.975 2.246887 x = 1 | f(x) = 5114.658 | 645.3687 4467.012 2.277491 x = 0.381966 | f(x) = 5124.202 | 646.7884 4475.155 2.25852 x = 0.618034 | f(x) = 5120.59 | 646.2391 4472.085 2.265744 x = 0.763932 | f(x) = 5118.074 | 645.8201 4469.984 2.270222 x = 0.854102 | f(x) = 5116.483 | 645.5459 4468.665 2.272995 x = 0.90983 | f(x) = 5115.489 | 645.3718 4467.842 2.274711 ====================== step 30/30 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 5113.944 | 645.1173 4466.549 2.277491 x = 1 | f(x) = 5097.497 | 642.6618 4452.527 2.308463 x = 0.381966 | f(x) = 5106.725 | 643.844 4460.592 2.289275 x = 0.618034 | f(x) = 5103.098 | 643.2994 4457.502 2.296598 x = 0.763932 | f(x) = 5100.679 | 642.9634 4455.415 2.301124 x = 0.854102 | f(x) = 5099.157 | 642.7437 4454.109 2.303926 x = 0.90983 | f(x) = 5098.211 | 642.6029 4453.303 2.305658 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.118434 Total Core solution elapsed time: 43.3181 Linear solver elapsed time: 20.9269 (48%) Total elapsed time: 0 hrs 0 min 43 sec loading results from cluster Step 4: Transient run checking model consistency marshalling file SeaRISEgreenland.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) Input updates from constant Input updates from constant Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom Renumbering degrees of freedom call computational core: iteration 1/100 time [yr]: 0.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.09223e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 40.0062 > 1 % Convergence criterion: norm(du)/norm(u) 51.744 > 10 % Convergence criterion: max(du) 0.000156722 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96592e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 3.83978 > 1 % Convergence criterion: norm(du)/norm(u) 5.93163 < 10 % Convergence criterion: max(du) 1.86578e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03791e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 1.03774 > 1 % Convergence criterion: norm(du)/norm(u) 2.37988 < 10 % Convergence criterion: max(du) 7.83442e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.69089e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.258198 < 1 % Convergence criterion: norm(du)/norm(u) 1.07426 < 10 % Convergence criterion: max(du) 3.84522e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 4 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.51143e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 2/100 time [yr]: 0.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.84203e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.579836 < 1 % Convergence criterion: norm(du)/norm(u) 42.6946 > 10 % Convergence criterion: max(du) 0.000129592 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99595e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.181112 < 1 % Convergence criterion: norm(du)/norm(u) 4.8599 < 10 % Convergence criterion: max(du) 1.22631e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04613e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 3/100 time [yr]: 0.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.76604e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.29581 < 1 % Convergence criterion: norm(du)/norm(u) 23.2133 > 10 % Convergence criterion: max(du) 5.30421e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.01787e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0922583 < 1 % Convergence criterion: norm(du)/norm(u) 4.30905 < 10 % Convergence criterion: max(du) 1.56862e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.80925e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 4/100 time [yr]: 0.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 0.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62929e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.198505 < 1 % Convergence criterion: norm(du)/norm(u) 12.4286 > 10 % Convergence criterion: max(du) 4.50849e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90702e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.054312 < 1 % Convergence criterion: norm(du)/norm(u) 4.66342 < 10 % Convergence criterion: max(du) 2.38723e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73965e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 5/100 time [yr]: 1.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86635e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.165193 < 1 % Convergence criterion: norm(du)/norm(u) 10.4077 > 10 % Convergence criterion: max(du) 4.82107e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.7247e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0476213 < 1 % Convergence criterion: norm(du)/norm(u) 5.44265 < 10 % Convergence criterion: max(du) 2.84468e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 2 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.68408e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 6/100 time [yr]: 1.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12108e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.149263 < 1 % Convergence criterion: norm(du)/norm(u) 9.21398 < 10 % Convergence criterion: max(du) 4.63752e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82047e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 7/100 time [yr]: 1.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.94131e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.157105 < 1 % Convergence criterion: norm(du)/norm(u) 9.33302 < 10 % Convergence criterion: max(du) 5.19675e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.69406e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 8/100 time [yr]: 1.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12358e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.154827 < 1 % Convergence criterion: norm(du)/norm(u) 8.22583 < 10 % Convergence criterion: max(du) 5.03355e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61522e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 9/100 time [yr]: 1.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 1.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03605e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.149702 < 1 % Convergence criterion: norm(du)/norm(u) 6.67201 < 10 % Convergence criterion: max(du) 4.4308e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 1.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84835e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 10/100 time [yr]: 2.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10827e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.144213 < 1 % Convergence criterion: norm(du)/norm(u) 5.15722 < 10 % Convergence criterion: max(du) 3.64248e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78938e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 11/100 time [yr]: 2.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96106e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.138839 < 1 % Convergence criterion: norm(du)/norm(u) 3.91063 < 10 % Convergence criterion: max(du) 2.8626e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.52823e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 12/100 time [yr]: 2.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8092e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.133785 < 1 % Convergence criterion: norm(du)/norm(u) 2.98574 < 10 % Convergence criterion: max(du) 2.20048e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.79428e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 13/100 time [yr]: 2.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72302e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.129165 < 1 % Convergence criterion: norm(du)/norm(u) 2.34244 < 10 % Convergence criterion: max(du) 1.69106e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.54674e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 14/100 time [yr]: 2.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 2.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99231e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.124927 < 1 % Convergence criterion: norm(du)/norm(u) 1.90948 < 10 % Convergence criterion: max(du) 1.32356e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 2.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75856e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 15/100 time [yr]: 3.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.72208e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.121046 < 1 % Convergence criterion: norm(du)/norm(u) 1.61812 < 10 % Convergence criterion: max(du) 1.06836e-05 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74922e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 16/100 time [yr]: 3.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89042e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.117504 < 1 % Convergence criterion: norm(du)/norm(u) 1.41647 < 10 % Convergence criterion: max(du) 8.93782e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.43686e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 17/100 time [yr]: 3.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.2092e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.114284 < 1 % Convergence criterion: norm(du)/norm(u) 1.27046 < 10 % Convergence criterion: max(du) 7.73462e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84765e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 18/100 time [yr]: 3.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.82157e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.111367 < 1 % Convergence criterion: norm(du)/norm(u) 1.1594 < 10 % Convergence criterion: max(du) 6.88107e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.72979e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 19/100 time [yr]: 3.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 3.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.1063e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.108733 < 1 % Convergence criterion: norm(du)/norm(u) 1.07113 < 10 % Convergence criterion: max(du) 6.24711e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 3.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.76324e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 20/100 time [yr]: 4.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.05523e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.106356 < 1 % Convergence criterion: norm(du)/norm(u) 0.998493 < 10 % Convergence criterion: max(du) 5.75025e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.58735e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 21/100 time [yr]: 4.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89603e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.104206 < 1 % Convergence criterion: norm(du)/norm(u) 0.937125 < 10 % Convergence criterion: max(du) 5.3407e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85673e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 22/100 time [yr]: 4.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86398e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.102251 < 1 % Convergence criterion: norm(du)/norm(u) 0.884247 < 10 % Convergence criterion: max(du) 4.98966e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.16754e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 23/100 time [yr]: 4.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.14905e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.100465 < 1 % Convergence criterion: norm(du)/norm(u) 0.838226 < 10 % Convergence criterion: max(du) 4.68095e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67697e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 24/100 time [yr]: 4.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 4.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96856e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0988228 < 1 % Convergence criterion: norm(du)/norm(u) 0.797679 < 10 % Convergence criterion: max(du) 4.40552e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 4.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67276e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 25/100 time [yr]: 5.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99982e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0973049 < 1 % Convergence criterion: norm(du)/norm(u) 0.761639 < 10 % Convergence criterion: max(du) 4.15807e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82257e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 26/100 time [yr]: 5.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89713e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.09589 < 1 % Convergence criterion: norm(du)/norm(u) 0.729262 < 10 % Convergence criterion: max(du) 3.93508e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.49363e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 27/100 time [yr]: 5.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88832e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0945622 < 1 % Convergence criterion: norm(du)/norm(u) 0.699987 < 10 % Convergence criterion: max(du) 3.73383e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.75734e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 28/100 time [yr]: 5.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.85976e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0933088 < 1 % Convergence criterion: norm(du)/norm(u) 0.673373 < 10 % Convergence criterion: max(du) 3.55194e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65269e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 29/100 time [yr]: 5.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 5.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.75977e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0921186 < 1 % Convergence criterion: norm(du)/norm(u) 0.649074 < 10 % Convergence criterion: max(du) 3.38733e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 5.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74177e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 30/100 time [yr]: 6.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81531e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0909765 < 1 % Convergence criterion: norm(du)/norm(u) 0.626782 < 10 % Convergence criterion: max(du) 3.23787e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.22844e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 31/100 time [yr]: 6.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.22427e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0898938 < 1 % Convergence criterion: norm(du)/norm(u) 0.606266 < 10 % Convergence criterion: max(du) 3.1018e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91519e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 32/100 time [yr]: 6.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.73929e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0888679 < 1 % Convergence criterion: norm(du)/norm(u) 0.587377 < 10 % Convergence criterion: max(du) 2.97749e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.78989e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 33/100 time [yr]: 6.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79511e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0878845 < 1 % Convergence criterion: norm(du)/norm(u) 0.570048 < 10 % Convergence criterion: max(du) 2.86347e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.83319e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 34/100 time [yr]: 6.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 6.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.91645e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0869359 < 1 % Convergence criterion: norm(du)/norm(u) 0.554064 < 10 % Convergence criterion: max(du) 2.75845e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 6.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67261e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 35/100 time [yr]: 7.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.71269e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0860176 < 1 % Convergence criterion: norm(du)/norm(u) 0.539173 < 10 % Convergence criterion: max(du) 2.6613e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98654e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 36/100 time [yr]: 7.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.99877e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0851273 < 1 % Convergence criterion: norm(du)/norm(u) 0.525203 < 10 % Convergence criterion: max(du) 2.5711e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63606e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 37/100 time [yr]: 7.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.04542e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0842647 < 1 % Convergence criterion: norm(du)/norm(u) 0.51205 < 10 % Convergence criterion: max(du) 2.48706e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.5801e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 38/100 time [yr]: 7.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.80554e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0834299 < 1 % Convergence criterion: norm(du)/norm(u) 0.499628 < 10 % Convergence criterion: max(du) 2.40854e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65965e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 39/100 time [yr]: 7.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 7.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.97848e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0826229 < 1 % Convergence criterion: norm(du)/norm(u) 0.487841 < 10 % Convergence criterion: max(du) 2.33498e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 7.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85516e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 40/100 time [yr]: 8.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.83641e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.081843 < 1 % Convergence criterion: norm(du)/norm(u) 0.47662 < 10 % Convergence criterion: max(du) 2.2659e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9513e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 41/100 time [yr]: 8.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8257e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0810856 < 1 % Convergence criterion: norm(du)/norm(u) 0.465877 < 10 % Convergence criterion: max(du) 2.20091e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77254e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 42/100 time [yr]: 8.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.02118e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0803506 < 1 % Convergence criterion: norm(du)/norm(u) 0.455531 < 10 % Convergence criterion: max(du) 2.13964e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62357e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 43/100 time [yr]: 8.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95356e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0796359 < 1 % Convergence criterion: norm(du)/norm(u) 0.445517 < 10 % Convergence criterion: max(du) 2.08176e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.63621e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 44/100 time [yr]: 8.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 8.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.82824e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.07894 < 1 % Convergence criterion: norm(du)/norm(u) 0.435768 < 10 % Convergence criterion: max(du) 2.02701e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 8.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.66286e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 45/100 time [yr]: 9.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81567e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0782614 < 1 % Convergence criterion: norm(du)/norm(u) 0.42629 < 10 % Convergence criterion: max(du) 1.97513e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88786e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 46/100 time [yr]: 9.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95219e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0775988 < 1 % Convergence criterion: norm(du)/norm(u) 0.417072 < 10 % Convergence criterion: max(du) 1.9259e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82525e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 47/100 time [yr]: 9.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.05582e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0769509 < 1 % Convergence criterion: norm(du)/norm(u) 0.408118 < 10 % Convergence criterion: max(du) 1.8791e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59457e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 48/100 time [yr]: 9.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.119e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0763168 < 1 % Convergence criterion: norm(du)/norm(u) 0.399417 < 10 % Convergence criterion: max(du) 1.83457e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.85199e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 49/100 time [yr]: 9.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 9.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.39839e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0756956 < 1 % Convergence criterion: norm(du)/norm(u) 0.390975 < 10 % Convergence criterion: max(du) 1.79214e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 9.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77225e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 50/100 time [yr]: 10.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8478e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0750865 < 1 % Convergence criterion: norm(du)/norm(u) 0.382779 < 10 % Convergence criterion: max(du) 1.75173e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.59014e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 51/100 time [yr]: 10.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90478e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0744891 < 1 % Convergence criterion: norm(du)/norm(u) 0.374844 < 10 % Convergence criterion: max(du) 1.71313e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82529e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 52/100 time [yr]: 10.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.9389e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0739079 < 1 % Convergence criterion: norm(du)/norm(u) 0.362827 < 10 % Convergence criterion: max(du) 1.6621e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61386e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 53/100 time [yr]: 10.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95683e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0733373 < 1 % Convergence criterion: norm(du)/norm(u) 0.350628 < 10 % Convergence criterion: max(du) 1.60939e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.90886e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 54/100 time [yr]: 10.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 10.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10289e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0727769 < 1 % Convergence criterion: norm(du)/norm(u) 0.33879 < 10 % Convergence criterion: max(du) 1.55893e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 10.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9533e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 55/100 time [yr]: 11.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88502e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0722264 < 1 % Convergence criterion: norm(du)/norm(u) 0.327423 < 10 % Convergence criterion: max(du) 1.51167e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.74204e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 56/100 time [yr]: 11.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.06961e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0716855 < 1 % Convergence criterion: norm(du)/norm(u) 0.316536 < 10 % Convergence criterion: max(du) 1.4676e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.64767e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 57/100 time [yr]: 11.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.09359e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0711543 < 1 % Convergence criterion: norm(du)/norm(u) 0.306126 < 10 % Convergence criterion: max(du) 1.42643e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70239e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 58/100 time [yr]: 11.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.32123e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0706323 < 1 % Convergence criterion: norm(du)/norm(u) 0.296179 < 10 % Convergence criterion: max(du) 1.38775e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.97828e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 59/100 time [yr]: 11.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 11.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.65422e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0701194 < 1 % Convergence criterion: norm(du)/norm(u) 0.286654 < 10 % Convergence criterion: max(du) 1.35119e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 11.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73294e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 60/100 time [yr]: 12.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.03246e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0696153 < 1 % Convergence criterion: norm(du)/norm(u) 0.277549 < 10 % Convergence criterion: max(du) 1.3164e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.09671e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 61/100 time [yr]: 12.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10365e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0691199 < 1 % Convergence criterion: norm(du)/norm(u) 0.268864 < 10 % Convergence criterion: max(du) 1.28311e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86058e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 62/100 time [yr]: 12.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.00099e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.068633 < 1 % Convergence criterion: norm(du)/norm(u) 0.260586 < 10 % Convergence criterion: max(du) 1.25112e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.73467e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 63/100 time [yr]: 12.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.9449e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0681543 < 1 % Convergence criterion: norm(du)/norm(u) 0.252703 < 10 % Convergence criterion: max(du) 1.22026e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96854e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 64/100 time [yr]: 12.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 12.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.64099e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0676835 < 1 % Convergence criterion: norm(du)/norm(u) 0.245188 < 10 % Convergence criterion: max(du) 1.19043e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 12.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.65746e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 65/100 time [yr]: 13.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.23996e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0672203 < 1 % Convergence criterion: norm(du)/norm(u) 0.237927 < 10 % Convergence criterion: max(du) 1.16154e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.7634e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 66/100 time [yr]: 13.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.92004e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0667652 < 1 % Convergence criterion: norm(du)/norm(u) 0.231092 < 10 % Convergence criterion: max(du) 1.13352e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.8578e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 67/100 time [yr]: 13.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.10259e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0663172 < 1 % Convergence criterion: norm(du)/norm(u) 0.22462 < 10 % Convergence criterion: max(du) 1.10633e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.98464e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 68/100 time [yr]: 13.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79802e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0658764 < 1 % Convergence criterion: norm(du)/norm(u) 0.218499 < 10 % Convergence criterion: max(du) 1.0799e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.91322e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 69/100 time [yr]: 13.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 13.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.02886e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0654425 < 1 % Convergence criterion: norm(du)/norm(u) 0.212706 < 10 % Convergence criterion: max(du) 1.0542e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 13.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.71549e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 70/100 time [yr]: 14.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86881e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0650153 < 1 % Convergence criterion: norm(du)/norm(u) 0.20725 < 10 % Convergence criterion: max(du) 1.02919e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81617e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 71/100 time [yr]: 14.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.78058e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0645949 < 1 % Convergence criterion: norm(du)/norm(u) 0.202082 < 10 % Convergence criterion: max(du) 1.00482e-06 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.46388e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 72/100 time [yr]: 14.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.26043e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0641809 < 1 % Convergence criterion: norm(du)/norm(u) 0.197233 < 10 % Convergence criterion: max(du) 9.81074e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.58155e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 73/100 time [yr]: 14.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.25195e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0637733 < 1 % Convergence criterion: norm(du)/norm(u) 0.192578 < 10 % Convergence criterion: max(du) 9.57908e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.56169e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 74/100 time [yr]: 14.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 14.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.90375e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.063372 < 1 % Convergence criterion: norm(du)/norm(u) 0.188381 < 10 % Convergence criterion: max(du) 9.3529e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 14.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.62269e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 75/100 time [yr]: 15.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.15508e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0629767 < 1 % Convergence criterion: norm(du)/norm(u) 0.18449 < 10 % Convergence criterion: max(du) 9.13182e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.9026e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 76/100 time [yr]: 15.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.30995e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0625876 < 1 % Convergence criterion: norm(du)/norm(u) 0.180899 < 10 % Convergence criterion: max(du) 8.91577e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.49007e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 77/100 time [yr]: 15.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.12299e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0622044 < 1 % Convergence criterion: norm(du)/norm(u) 0.177604 < 10 % Convergence criterion: max(du) 8.70459e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.70474e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 78/100 time [yr]: 15.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.96837e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0618266 < 1 % Convergence criterion: norm(du)/norm(u) 0.174598 < 10 % Convergence criterion: max(du) 8.49801e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.77584e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 79/100 time [yr]: 15.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 15.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.86134e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0614541 < 1 % Convergence criterion: norm(du)/norm(u) 0.171868 < 10 % Convergence criterion: max(du) 8.42481e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 15.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.56416e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 80/100 time [yr]: 16.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.65985e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0610872 < 1 % Convergence criterion: norm(du)/norm(u) 0.169371 < 10 % Convergence criterion: max(du) 8.5016e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81275e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 81/100 time [yr]: 16.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.94243e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0607257 < 1 % Convergence criterion: norm(du)/norm(u) 0.166878 < 10 % Convergence criterion: max(du) 8.56847e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.82001e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 82/100 time [yr]: 16.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.97888e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0603694 < 1 % Convergence criterion: norm(du)/norm(u) 0.164926 < 10 % Convergence criterion: max(du) 8.62499e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.19232e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 83/100 time [yr]: 16.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.59618e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0600192 < 1 % Convergence criterion: norm(du)/norm(u) 0.163357 < 10 % Convergence criterion: max(du) 8.72759e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.6725e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 84/100 time [yr]: 16.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 16.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.74431e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0596741 < 1 % Convergence criterion: norm(du)/norm(u) 0.162021 < 10 % Convergence criterion: max(du) 8.81599e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 16.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.46396e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 85/100 time [yr]: 17.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.81627e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0593326 < 1 % Convergence criterion: norm(du)/norm(u) 0.160712 < 10 % Convergence criterion: max(du) 8.84127e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.45952e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 86/100 time [yr]: 17.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.79515e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0589956 < 1 % Convergence criterion: norm(du)/norm(u) 0.159568 < 10 % Convergence criterion: max(du) 8.8477e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.51294e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 87/100 time [yr]: 17.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.8294e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0586632 < 1 % Convergence criterion: norm(du)/norm(u) 0.158695 < 10 % Convergence criterion: max(du) 8.83843e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.03352e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 88/100 time [yr]: 17.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.0172e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0583353 < 1 % Convergence criterion: norm(du)/norm(u) 0.158032 < 10 % Convergence criterion: max(du) 8.81648e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.81061e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 89/100 time [yr]: 17.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 17.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.89271e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0580117 < 1 % Convergence criterion: norm(du)/norm(u) 0.157615 < 10 % Convergence criterion: max(du) 8.78242e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 17.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.71492e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 90/100 time [yr]: 18.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.91209e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0576926 < 1 % Convergence criterion: norm(du)/norm(u) 0.157574 < 10 % Convergence criterion: max(du) 8.73655e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.94964e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 91/100 time [yr]: 18.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.00765e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0573778 < 1 % Convergence criterion: norm(du)/norm(u) 0.157866 < 10 % Convergence criterion: max(du) 8.67918e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.84296e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 92/100 time [yr]: 18.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.95899e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0570669 < 1 % Convergence criterion: norm(du)/norm(u) 0.158338 < 10 % Convergence criterion: max(du) 8.61067e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.88742e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 93/100 time [yr]: 18.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.68686e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0567599 < 1 % Convergence criterion: norm(du)/norm(u) 0.158938 < 10 % Convergence criterion: max(du) 8.53142e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.95539e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 94/100 time [yr]: 18.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 18.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.53757e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0564556 < 1 % Convergence criterion: norm(du)/norm(u) 0.159689 < 10 % Convergence criterion: max(du) 8.44192e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 18.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.67251e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 95/100 time [yr]: 19.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.62914e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0561557 < 1 % Convergence criterion: norm(du)/norm(u) 0.160629 < 10 % Convergence criterion: max(du) 8.34268e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.61681e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 96/100 time [yr]: 19.20 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.2 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.92136e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.05586 < 1 % Convergence criterion: norm(du)/norm(u) 0.161758 < 10 % Convergence criterion: max(du) 8.23427e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.2 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.86806e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 97/100 time [yr]: 19.40 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.4 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=3.24742e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0555678 < 1 % Convergence criterion: norm(du)/norm(u) 0.162987 < 10 % Convergence criterion: max(du) 8.11726e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.4 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.04524e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 98/100 time [yr]: 19.60 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.6 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.70217e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0552798 < 1 % Convergence criterion: norm(du)/norm(u) 0.164309 < 10 % Convergence criterion: max(du) 7.9923e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.6 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=1.96292e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 99/100 time [yr]: 19.80 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 19.8 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.88142e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0549959 < 1 % Convergence criterion: norm(du)/norm(u) 0.166002 < 10 % Convergence criterion: max(du) 7.86001e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 19.8 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.05831e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results iteration 100/100 time [yr]: 20.00 (time step: 0.20) computing smb computing new velocity Updating constraints and active domain of analysis StressbalanceAnalysis for time: 20 Get solution from inputs Reduce vector from g to f set Input updates from constant Updating inputs from solution for StressbalanceAnalysis Allocating matrices (Kff stiffness matrix size: 9300 x 9300) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.78073e-16 Merging solution vector from fset to gset checking convergence mechanical equilibrium convergence criterion 0.0547161 < 1 % Convergence criterion: norm(du)/norm(u) 0.167956 < 10 % Convergence criterion: max(du) 7.74989e-07 Input updates from constant Updating inputs from solution for StressbalanceAnalysis number of unstable constraints: 0 total number of iterations: 1 computing basal mass balance computing mass transport call computational core Updating constraints and active domain of analysis MasstransportAnalysis for time: 20 Allocating matrices (Kff stiffness matrix size: 4650 x 4650) Assembling matrices Create nodal constraints Dirichlet lifting applied to load vector Solving matrix system solver residue: norm(KU-F)/norm(F)=2.19113e-16 Merging solution vector from fset to gset Updating inputs from solution for MasstransportAnalysis updating vertices positions computing transient requested outputs saving temporary results write lock file: FemModel initialization elapsed time: 0.108307 Total Core solution elapsed time: 31.0004 Linear solver elapsed time: 15.7852 (51%) Total elapsed time: 0 hrs 0 min 31 sec loading results from cluster Step 5: Plotting SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-IceflowModels +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.060606 Total Core solution elapsed time: 0.093187 Linear solver elapsed time: 0.015591 (17%) Total elapsed time: 0 hrs 0 min 0 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-IceflowModels +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.060606 Total Core solution elapsed time: 0.093187 Linear solver elapsed time: 0.015591 (17%) Total elapsed time: 0 hrs 0 min 0 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Inversion +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag creating flow law paramter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031791 Total Core solution elapsed time: 0.20924 Linear solver elapsed time: 0.183709 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.037557 Total Core solution elapsed time: 0.223143 Linear solver elapsed time: 0.195685 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 β”‚ β”‚ 10 β”‚ f(x)= 52.098 β”‚ 4.15e-07 β”‚ 52.1 β”‚ β”‚ 11 β”‚ f(x)= 26.462 β”‚ 2.72e-07 β”‚ 26.46 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 β”‚ β”‚ 13 β”‚ f(x)= 9.8225 β”‚ 1.14e-07 β”‚ 9.822 β”‚ β”‚ 14 β”‚ f(x)= 5.8087 β”‚ 9.69e-08 β”‚ 5.809 β”‚ β”‚ 15 β”‚ f(x)= 2.4895 β”‚ 9.36e-08 β”‚ 2.49 β”‚ β”‚ 16 β”‚ f(x)= 1.7087 β”‚ 3.9e-08 β”‚ 1.709 β”‚ β”‚ 17 β”‚ f(x)= 1.3549 β”‚ 3.96e-08 β”‚ 1.355 β”‚ β”‚ 18 β”‚ f(x)= 0.88095 β”‚ 4.29e-08 β”‚ 0.8809 β”‚ β”‚ 19 β”‚ f(x)= 0.47917 β”‚ 1.58e-08 β”‚ 0.4792 β”‚ β”‚ 20 β”‚ f(x)= 0.39798 β”‚ 1.12e-08 β”‚ 0.398 β”‚ β”‚ 21 β”‚ f(x)= 0.32618 β”‚ 1.1e-08 β”‚ 0.3262 β”‚ β”‚ 22 β”‚ f(x)= 0.20219 β”‚ 9.75e-09 β”‚ 0.2022 β”‚ β”‚ 23 β”‚ f(x)= 0.19258 β”‚ 2e-08 β”‚ 0.1926 β”‚ β”‚ 24 β”‚ f(x)= 0.13083 β”‚ 9e-09 β”‚ 0.1308 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.036757 Total Core solution elapsed time: 3.92221 Linear solver elapsed time: 3.37571 (86%) Total elapsed time: 0 hrs 0 min 3 sec INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-30 β”‚ β”‚ 2 β”‚ f(x)= 71319 β”‚ 0.000249 β”‚ 7.132e+04 3.972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0007499 β”‚ β”‚ 4 β”‚ f(x)= 2627.9 β”‚ 1.74e-05 β”‚ 2627 1.297 β”‚ β”‚ 5 β”‚ f(x)= 501.86 β”‚ 3.38e-06 β”‚ 501.8 0.07914 β”‚ β”‚ 6 β”‚ f(x)= 727.82 β”‚ 7.39e-06 β”‚ 726.8 1.025 β”‚ β”‚ 7 β”‚ f(x)= 161.71 β”‚ 1.37e-06 β”‚ 161.4 0.2828 β”‚ β”‚ 8 β”‚ f(x)= 110.74 β”‚ 1.54e-06 β”‚ 110.1 0.6226 β”‚ β”‚ 9 β”‚ f(x)= 75.417 β”‚ 7.01e-07 β”‚ 74.86 0.5524 β”‚ β”‚ 10 β”‚ f(x)= 50.079 β”‚ 3.95e-07 β”‚ 49.47 0.6103 β”‚ β”‚ 11 β”‚ f(x)= 27.016 β”‚ 2.74e-07 β”‚ 26.23 0.7915 β”‚ β”‚ 12 β”‚ f(x)= 15.765 β”‚ 1.64e-07 β”‚ 14.96 0.806 β”‚ β”‚ 13 β”‚ f(x)= 10.429 β”‚ 1.16e-07 β”‚ 9.679 0.7495 β”‚ β”‚ 14 β”‚ f(x)= 6.1855 β”‚ 9.8e-08 β”‚ 5.48 0.706 β”‚ β”‚ 15 β”‚ f(x)= 2.894 β”‚ 8.74e-08 β”‚ 2.219 0.6751 β”‚ β”‚ 16 β”‚ f(x)= 2.0594 β”‚ 3.93e-08 β”‚ 1.444 0.6159 β”‚ β”‚ 17 β”‚ f(x)= 1.6545 β”‚ 3.92e-08 β”‚ 1.06 0.5944 β”‚ β”‚ 18 β”‚ f(x)= 1.2382 β”‚ 3.66e-08 β”‚ 0.6934 0.5447 β”‚ β”‚ 19 β”‚ f(x)= 0.93157 β”‚ 2.26e-08 β”‚ 0.4485 0.4831 β”‚ β”‚ 20 β”‚ f(x)= 0.82377 β”‚ 1.47e-08 β”‚ 0.3782 0.4455 β”‚ β”‚ 21 β”‚ f(x)= 0.73206 β”‚ 1.53e-08 β”‚ 0.3127 0.4193 β”‚ β”‚ 22 β”‚ f(x)= 0.60194 β”‚ 1.25e-08 β”‚ 0.2118 0.3902 β”‚ β”‚ 23 β”‚ f(x)= 0.56118 β”‚ 1.3e-08 β”‚ 0.1899 0.3713 β”‚ β”‚ 24 β”‚ f(x)= 0.54169 β”‚ 7.15e-09 β”‚ 0.1757 0.366 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.037069 Total Core solution elapsed time: 3.81406 Linear solver elapsed time: 3.29046 (86%) Total elapsed time: 0 hrs 0 min 3 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Inversion +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag creating flow law paramter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031791 Total Core solution elapsed time: 0.20924 Linear solver elapsed time: 0.183709 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.037557 Total Core solution elapsed time: 0.223143 Linear solver elapsed time: 0.195685 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 β”‚ β”‚ 10 β”‚ f(x)= 52.098 β”‚ 4.15e-07 β”‚ 52.1 β”‚ β”‚ 11 β”‚ f(x)= 26.462 β”‚ 2.72e-07 β”‚ 26.46 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 β”‚ β”‚ 13 β”‚ f(x)= 9.8225 β”‚ 1.14e-07 β”‚ 9.822 β”‚ β”‚ 14 β”‚ f(x)= 5.8087 β”‚ 9.69e-08 β”‚ 5.809 β”‚ β”‚ 15 β”‚ f(x)= 2.4895 β”‚ 9.36e-08 β”‚ 2.49 β”‚ β”‚ 16 β”‚ f(x)= 1.7087 β”‚ 3.9e-08 β”‚ 1.709 β”‚ β”‚ 17 β”‚ f(x)= 1.3549 β”‚ 3.96e-08 β”‚ 1.355 β”‚ β”‚ 18 β”‚ f(x)= 0.88095 β”‚ 4.29e-08 β”‚ 0.8809 β”‚ β”‚ 19 β”‚ f(x)= 0.47917 β”‚ 1.58e-08 β”‚ 0.4792 β”‚ β”‚ 20 β”‚ f(x)= 0.39798 β”‚ 1.12e-08 β”‚ 0.398 β”‚ β”‚ 21 β”‚ f(x)= 0.32618 β”‚ 1.1e-08 β”‚ 0.3262 β”‚ β”‚ 22 β”‚ f(x)= 0.20219 β”‚ 9.75e-09 β”‚ 0.2022 β”‚ β”‚ 23 β”‚ f(x)= 0.19258 β”‚ 2e-08 β”‚ 0.1926 β”‚ β”‚ 24 β”‚ f(x)= 0.13083 β”‚ 9e-09 β”‚ 0.1308 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.036757 Total Core solution elapsed time: 3.92221 Linear solver elapsed time: 3.37571 (86%) Total elapsed time: 0 hrs 0 min 3 sec INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-30 β”‚ β”‚ 2 β”‚ f(x)= 71319 β”‚ 0.000249 β”‚ 7.132e+04 3.972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0007499 β”‚ β”‚ 4 β”‚ f(x)= 2627.9 β”‚ 1.74e-05 β”‚ 2627 1.297 β”‚ β”‚ 5 β”‚ f(x)= 501.86 β”‚ 3.38e-06 β”‚ 501.8 0.07914 β”‚ β”‚ 6 β”‚ f(x)= 727.82 β”‚ 7.39e-06 β”‚ 726.8 1.025 β”‚ β”‚ 7 β”‚ f(x)= 161.71 β”‚ 1.37e-06 β”‚ 161.4 0.2828 β”‚ β”‚ 8 β”‚ f(x)= 110.74 β”‚ 1.54e-06 β”‚ 110.1 0.6226 β”‚ β”‚ 9 β”‚ f(x)= 75.417 β”‚ 7.01e-07 β”‚ 74.86 0.5524 β”‚ β”‚ 10 β”‚ f(x)= 50.079 β”‚ 3.95e-07 β”‚ 49.47 0.6103 β”‚ β”‚ 11 β”‚ f(x)= 27.016 β”‚ 2.74e-07 β”‚ 26.23 0.7915 β”‚ β”‚ 12 β”‚ f(x)= 15.765 β”‚ 1.64e-07 β”‚ 14.96 0.806 β”‚ β”‚ 13 β”‚ f(x)= 10.429 β”‚ 1.16e-07 β”‚ 9.679 0.7495 β”‚ β”‚ 14 β”‚ f(x)= 6.1855 β”‚ 9.8e-08 β”‚ 5.48 0.706 β”‚ β”‚ 15 β”‚ f(x)= 2.894 β”‚ 8.74e-08 β”‚ 2.219 0.6751 β”‚ β”‚ 16 β”‚ f(x)= 2.0594 β”‚ 3.93e-08 β”‚ 1.444 0.6159 β”‚ β”‚ 17 β”‚ f(x)= 1.6545 β”‚ 3.92e-08 β”‚ 1.06 0.5944 β”‚ β”‚ 18 β”‚ f(x)= 1.2382 β”‚ 3.66e-08 β”‚ 0.6934 0.5447 β”‚ β”‚ 19 β”‚ f(x)= 0.93157 β”‚ 2.26e-08 β”‚ 0.4485 0.4831 β”‚ β”‚ 20 β”‚ f(x)= 0.82377 β”‚ 1.47e-08 β”‚ 0.3782 0.4455 β”‚ β”‚ 21 β”‚ f(x)= 0.73206 β”‚ 1.53e-08 β”‚ 0.3127 0.4193 β”‚ β”‚ 22 β”‚ f(x)= 0.60194 β”‚ 1.25e-08 β”‚ 0.2118 0.3902 β”‚ β”‚ 23 β”‚ f(x)= 0.56118 β”‚ 1.3e-08 β”‚ 0.1899 0.3713 β”‚ β”‚ 24 β”‚ f(x)= 0.54169 β”‚ 7.15e-09 β”‚ 0.1757 0.366 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.037069 Total Core solution elapsed time: 3.81406 Linear solver elapsed time: 3.29046 (86%) Total elapsed time: 0 hrs 0 min 3 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Jakobshavn +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 3007 Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating thicknesses Interpolating bedrock topography Constructing surface elevation Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions boundary conditions for stressbalance model: spc set as observed velocities no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file Jakobshavn.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 83691.82 | 83608.87 82.9538 x = 1 | f(x) = 71282.22 | 71202.56 79.65915 ====================== step 2/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 71434.03 | 71354.35 79.67283 x = 1 | f(x) = 61944.77 | 61868.32 76.4542 ====================== step 3/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 61661.08 | 61584.65 76.42878 x = 1 | f(x) = 55044.64 | 54971.17 73.46996 ====================== step 4/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 54783.23 | 54709.79 73.44058 x = 1 | f(x) = 49978.08 | 49907.35 70.7277 ====================== step 5/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 49772.38 | 49701.68 70.70017 x = 1 | f(x) = 46134.88 | 46066.67 68.21092 ====================== step 6/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 45971.44 | 45903.26 68.18565 x = 1 | f(x) = 43246.98 | 43181.03 65.95402 ====================== step 7/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 43116.42 | 43050.49 65.93162 x = 1 | f(x) = 41186.24 | 41122.2 64.04128 ====================== step 8/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 41086.83 | 41022.81 64.02207 x = 1 | f(x) = 39691.01 | 39628.64 62.36093 ====================== step 9/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39617.72 | 39555.37 62.34435 x = 1 | f(x) = 38647.74 | 38586.78 60.96179 ====================== step 10/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38542.7 | 38481.76 60.93448 x = 1 | f(x) = 37742.73 | 37683.01 59.72204 ====================== step 11/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37651.01 | 37591.32 59.69631 x = 1 | f(x) = 36980.6 | 36922 58.60387 ====================== step 12/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36901.71 | 36843.13 58.58021 x = 1 | f(x) = 36328.21 | 36270.64 57.57771 ====================== step 13/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36259.35 | 36201.79 57.55583 x = 1 | f(x) = 35760.77 | 35704.15 56.6245 ====================== step 14/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35699.86 | 35643.25 56.60405 x = 1 | f(x) = 35257.21 | 35201.48 55.7326 ====================== step 15/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35202.45 | 35146.74 55.71261 x = 1 | f(x) = 34832.95 | 34778.07 54.88295 ====================== step 16/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34786.61 | 34731.75 54.86544 x = 1 | f(x) = 34479.86 | 34425.78 54.08727 x = 0.381966 | f(x) = 34579.35 | 34524.82 54.53269 x = 0.618034 | f(x) = 34536.62 | 34482.25 54.36682 x = 0.763932 | f(x) = 34495.21 | 34440.96 54.2533 x = 0.854102 | f(x) = 34462.49 | 34408.31 54.17991 x = 0.90983 | f(x) = 34438.41 | 34384.27 54.1331 ====================== step 17/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34428.06 | 34373.94 54.12786 x = 1 | f(x) = 34186.62 | 34133.22 53.39879 x = 0.381966 | f(x) = 34281.41 | 34227.59 53.82491 x = 0.618034 | f(x) = 34245.75 | 34192.08 53.66858 x = 0.763932 | f(x) = 34211.4 | 34157.84 53.56115 x = 0.854102 | f(x) = 34184.23 | 34130.74 53.49158 x = 0.90983 | f(x) = 34164.21 | 34110.77 53.4472 ====================== step 18/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34155.78 | 34102.33 53.44227 x = 1 | f(x) = 33946.97 | 33894.23 52.74752 x = 0.381966 | f(x) = 34030.65 | 33977.49 53.1537 x = 0.618034 | f(x) = 34000.42 | 33947.42 53.00515 x = 0.763932 | f(x) = 33970.44 | 33917.53 52.90262 x = 0.854102 | f(x) = 33946.39 | 33893.55 52.83617 x = 0.90983 | f(x) = 33928.5 | 33875.7 52.79378 ====================== step 19/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 33920.82 | 33868.03 52.789 x = 1 | f(x) = 33740.96 | 33688.83 52.12422 x = 0.381966 | f(x) = 33811.12 | 33758.61 52.51346 x = 0.618034 | f(x) = 33784.82 | 33732.45 52.37163 x = 0.763932 | f(x) = 33759.33 | 33707.05 52.27353 x = 0.854102 | f(x) = 33739.07 | 33686.86 52.20992 x = 0.90983 | f(x) = 33724.1 | 33671.93 52.16935 ====================== step 20/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 33717.79 | 33665.62 52.16487 x = 1 | f(x) = 33583.19 | 33531.66 51.52454 x = 0.381966 | f(x) = 33635.61 | 33583.71 51.90026 x = 0.618034 | f(x) = 33615.74 | 33563.98 51.76344 x = 0.763932 | f(x) = 33597 | 33545.33 51.66875 x = 0.854102 | f(x) = 33582.39 | 33530.78 51.60748 x = 0.90983 | f(x) = 33571.73 | 33520.16 51.56847 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.063785 Total Core solution elapsed time: 11.9127 Linear solver elapsed time: 8.15876 (68%) Total elapsed time: 0 hrs 0 min 11 sec loading results from cluster Plotting SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Jakobshavn +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Step 1: Mesh creation Anisotropic mesh adaptation WARNING: mesh present but no geometry found. Reconstructing... new number of triangles = 3007 Step 2: Parameterization Loading SeaRISE data from NetCDF Interpolating thicknesses Interpolating bedrock topography Constructing surface elevation Interpolating velocities Interpolating temperatures Interpolating surface mass balance Construct basal friction parameters Construct ice rheological properties Set other boundary conditions boundary conditions for stressbalance model: spc set as observed velocities no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero Step 3: Control method friction checking model consistency INFO: the outlog will look better if only md.verbose.control is turned on marshalling file Jakobshavn.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: preparing initial solution x | Cost function f(x) | List of contributions ====================== step 1/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 83691.82 | 83608.87 82.9538 x = 1 | f(x) = 71282.22 | 71202.56 79.65915 ====================== step 2/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 71434.03 | 71354.35 79.67283 x = 1 | f(x) = 61944.77 | 61868.32 76.4542 ====================== step 3/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 61661.08 | 61584.65 76.42878 x = 1 | f(x) = 55044.64 | 54971.17 73.46996 ====================== step 4/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 54783.23 | 54709.79 73.44058 x = 1 | f(x) = 49978.08 | 49907.35 70.7277 ====================== step 5/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 49772.38 | 49701.68 70.70017 x = 1 | f(x) = 46134.88 | 46066.67 68.21092 ====================== step 6/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 45971.44 | 45903.26 68.18565 x = 1 | f(x) = 43246.98 | 43181.03 65.95402 ====================== step 7/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 43116.42 | 43050.49 65.93162 x = 1 | f(x) = 41186.24 | 41122.2 64.04128 ====================== step 8/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 41086.83 | 41022.81 64.02207 x = 1 | f(x) = 39691.01 | 39628.64 62.36093 ====================== step 9/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 39617.72 | 39555.37 62.34435 x = 1 | f(x) = 38647.74 | 38586.78 60.96179 ====================== step 10/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 38542.7 | 38481.76 60.93448 x = 1 | f(x) = 37742.73 | 37683.01 59.72204 ====================== step 11/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 37651.01 | 37591.32 59.69631 x = 1 | f(x) = 36980.6 | 36922 58.60387 ====================== step 12/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36901.71 | 36843.13 58.58021 x = 1 | f(x) = 36328.21 | 36270.64 57.57771 ====================== step 13/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 36259.35 | 36201.79 57.55583 x = 1 | f(x) = 35760.77 | 35704.15 56.6245 ====================== step 14/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35699.86 | 35643.25 56.60405 x = 1 | f(x) = 35257.21 | 35201.48 55.7326 ====================== step 15/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 35202.45 | 35146.74 55.71261 x = 1 | f(x) = 34832.95 | 34778.07 54.88295 ====================== step 16/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34786.61 | 34731.75 54.86544 x = 1 | f(x) = 34479.86 | 34425.78 54.08727 x = 0.381966 | f(x) = 34579.35 | 34524.82 54.53269 x = 0.618034 | f(x) = 34536.62 | 34482.25 54.36682 x = 0.763932 | f(x) = 34495.21 | 34440.96 54.2533 x = 0.854102 | f(x) = 34462.49 | 34408.31 54.17991 x = 0.90983 | f(x) = 34438.41 | 34384.27 54.1331 ====================== step 17/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34428.06 | 34373.94 54.12786 x = 1 | f(x) = 34186.62 | 34133.22 53.39879 x = 0.381966 | f(x) = 34281.41 | 34227.59 53.82491 x = 0.618034 | f(x) = 34245.75 | 34192.08 53.66858 x = 0.763932 | f(x) = 34211.4 | 34157.84 53.56115 x = 0.854102 | f(x) = 34184.23 | 34130.74 53.49158 x = 0.90983 | f(x) = 34164.21 | 34110.77 53.4472 ====================== step 18/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 34155.78 | 34102.33 53.44227 x = 1 | f(x) = 33946.97 | 33894.23 52.74752 x = 0.381966 | f(x) = 34030.65 | 33977.49 53.1537 x = 0.618034 | f(x) = 34000.42 | 33947.42 53.00515 x = 0.763932 | f(x) = 33970.44 | 33917.53 52.90262 x = 0.854102 | f(x) = 33946.39 | 33893.55 52.83617 x = 0.90983 | f(x) = 33928.5 | 33875.7 52.79378 ====================== step 19/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 33920.82 | 33868.03 52.789 x = 1 | f(x) = 33740.96 | 33688.83 52.12422 x = 0.381966 | f(x) = 33811.12 | 33758.61 52.51346 x = 0.618034 | f(x) = 33784.82 | 33732.45 52.37163 x = 0.763932 | f(x) = 33759.33 | 33707.05 52.27353 x = 0.854102 | f(x) = 33739.07 | 33686.86 52.20992 x = 0.90983 | f(x) = 33724.1 | 33671.93 52.16935 ====================== step 20/20 =============================== x = 0 | computing velocities computing adjoint saving results f(x) = 33717.79 | 33665.62 52.16487 x = 1 | f(x) = 33583.19 | 33531.66 51.52454 x = 0.381966 | f(x) = 33635.61 | 33583.71 51.90026 x = 0.618034 | f(x) = 33615.74 | 33563.98 51.76344 x = 0.763932 | f(x) = 33597 | 33545.33 51.66875 x = 0.854102 | f(x) = 33582.39 | 33530.78 51.60748 x = 0.90983 | f(x) = 33571.73 | 33520.16 51.56847 preparing final solution computing new velocity write lock file: FemModel initialization elapsed time: 0.063785 Total Core solution elapsed time: 11.9127 Linear solver elapsed time: 8.15876 (68%) Total elapsed time: 0 hrs 0 min 11 sec loading results from cluster Plotting SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-LcurveAnalysis +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag creating flow law paramter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031951 Total Core solution elapsed time: 0.217099 Linear solver elapsed time: 0.188342 (87%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031989 Total Core solution elapsed time: 0.223673 Linear solver elapsed time: 0.196198 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster ------------------------------------------------------------ alpha iteration: 1/31, alpha value: 1e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.0003972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 7.5e-08 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 0.0001327 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 7.927e-06 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 0.0001068 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 2.844e-05 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 6.549e-05 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 5.715e-05 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 6.311e-05 β”‚ β”‚ 11 β”‚ f(x)= 26.462 β”‚ 2.72e-07 β”‚ 26.46 8.565e-05 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 9.124e-05 β”‚ β”‚ 13 β”‚ f(x)= 9.8226 β”‚ 1.14e-07 β”‚ 9.822 9.174e-05 β”‚ β”‚ 14 β”‚ f(x)= 5.8087 β”‚ 9.69e-08 β”‚ 5.809 9.448e-05 β”‚ β”‚ 15 β”‚ f(x)= 2.4896 β”‚ 9.36e-08 β”‚ 2.489 0.0001059 β”‚ β”‚ 16 β”‚ f(x)= 1.7088 β”‚ 3.9e-08 β”‚ 1.709 0.0001056 β”‚ β”‚ 17 β”‚ f(x)= 1.3549 β”‚ 3.96e-08 β”‚ 1.355 0.0001093 β”‚ β”‚ 18 β”‚ f(x)= 0.88103 β”‚ 4.29e-08 β”‚ 0.8809 0.0001114 β”‚ β”‚ 19 β”‚ f(x)= 0.47927 β”‚ 1.58e-08 β”‚ 0.4791 0.0001157 β”‚ β”‚ 20 β”‚ f(x)= 0.39808 β”‚ 1.12e-08 β”‚ 0.398 0.0001159 β”‚ β”‚ 21 β”‚ f(x)= 0.32628 β”‚ 1.1e-08 β”‚ 0.3262 0.0001175 β”‚ β”‚ 22 β”‚ f(x)= 0.20229 β”‚ 9.75e-09 β”‚ 0.2022 0.0001245 β”‚ β”‚ 23 β”‚ f(x)= 0.1927 β”‚ 2e-08 β”‚ 0.1926 0.000128 β”‚ β”‚ 24 β”‚ f(x)= 0.13094 β”‚ 9e-09 β”‚ 0.1308 0.0001282 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.038091 Total Core solution elapsed time: 3.84155 Linear solver elapsed time: 3.31054 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 2/31, alpha value: 1.9953e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.0007924 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.496e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 0.0002648 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 1.582e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 0.0002131 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 5.675e-05 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0001307 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.000114 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 0.0001259 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.0001709 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 0.000182 β”‚ β”‚ 13 β”‚ f(x)= 9.8226 β”‚ 1.14e-07 β”‚ 9.822 0.000183 β”‚ β”‚ 14 β”‚ f(x)= 5.8088 β”‚ 9.69e-08 β”‚ 5.809 0.0001885 β”‚ β”‚ 15 β”‚ f(x)= 2.4897 β”‚ 9.36e-08 β”‚ 2.489 0.0002114 β”‚ β”‚ 16 β”‚ f(x)= 1.7088 β”‚ 3.9e-08 β”‚ 1.709 0.0002107 β”‚ β”‚ 17 β”‚ f(x)= 1.355 β”‚ 3.96e-08 β”‚ 1.355 0.000218 β”‚ β”‚ 18 β”‚ f(x)= 0.88111 β”‚ 4.29e-08 β”‚ 0.8809 0.0002223 β”‚ β”‚ 19 β”‚ f(x)= 0.47936 β”‚ 1.58e-08 β”‚ 0.4791 0.0002308 β”‚ β”‚ 20 β”‚ f(x)= 0.39819 β”‚ 1.12e-08 β”‚ 0.398 0.0002313 β”‚ β”‚ 21 β”‚ f(x)= 0.32639 β”‚ 1.1e-08 β”‚ 0.3262 0.0002344 β”‚ β”‚ 22 β”‚ f(x)= 0.2024 β”‚ 9.75e-09 β”‚ 0.2022 0.0002484 β”‚ β”‚ 23 β”‚ f(x)= 0.19282 β”‚ 2e-08 β”‚ 0.1926 0.0002552 β”‚ β”‚ 24 β”‚ f(x)= 0.13105 β”‚ 9e-09 β”‚ 0.1308 0.0002557 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037512 Total Core solution elapsed time: 3.87955 Linear solver elapsed time: 3.33825 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 3/31, alpha value: 3.9811e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.001581 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 2.986e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.0005284 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 3.156e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.29 β”‚ 7.53e-06 β”‚ 749.3 0.0004251 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 0.0001132 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0002607 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0002275 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 0.0002512 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.000341 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 0.0003632 β”‚ β”‚ 13 β”‚ f(x)= 9.8228 β”‚ 1.14e-07 β”‚ 9.822 0.0003652 β”‚ β”‚ 14 β”‚ f(x)= 5.809 β”‚ 9.69e-08 β”‚ 5.809 0.0003761 β”‚ β”‚ 15 β”‚ f(x)= 2.4898 β”‚ 9.36e-08 β”‚ 2.489 0.0004217 β”‚ β”‚ 16 β”‚ f(x)= 1.709 β”‚ 3.9e-08 β”‚ 1.709 0.0004203 β”‚ β”‚ 17 β”‚ f(x)= 1.3551 β”‚ 3.96e-08 β”‚ 1.355 0.0004349 β”‚ β”‚ 18 β”‚ f(x)= 0.88126 β”‚ 4.29e-08 β”‚ 0.8808 0.0004435 β”‚ β”‚ 19 β”‚ f(x)= 0.47955 β”‚ 1.58e-08 β”‚ 0.4791 0.0004603 β”‚ β”‚ 20 β”‚ f(x)= 0.39839 β”‚ 1.11e-08 β”‚ 0.3979 0.0004613 β”‚ β”‚ 21 β”‚ f(x)= 0.3266 β”‚ 1.1e-08 β”‚ 0.3261 0.0004675 β”‚ β”‚ 22 β”‚ f(x)= 0.20261 β”‚ 9.75e-09 β”‚ 0.2021 0.0004953 β”‚ β”‚ 23 β”‚ f(x)= 0.19306 β”‚ 2e-08 β”‚ 0.1926 0.0005089 β”‚ β”‚ 24 β”‚ f(x)= 0.13126 β”‚ 9e-09 β”‚ 0.1308 0.0005098 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037207 Total Core solution elapsed time: 3.89898 Linear solver elapsed time: 3.3583 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 4/31, alpha value: 7.9433e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.003155 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 5.957e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.001054 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 6.297e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.29 β”‚ 7.53e-06 β”‚ 749.3 0.0008482 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 0.0002259 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0005202 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0004539 β”‚ β”‚ 10 β”‚ f(x)= 52.096 β”‚ 4.15e-07 β”‚ 52.1 0.0005013 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.0006803 β”‚ β”‚ 12 β”‚ f(x)= 15.28 β”‚ 1.65e-07 β”‚ 15.28 0.0007247 β”‚ β”‚ 13 β”‚ f(x)= 9.8232 β”‚ 1.14e-07 β”‚ 9.822 0.0007286 β”‚ β”‚ 14 β”‚ f(x)= 5.8092 β”‚ 9.69e-08 β”‚ 5.808 0.0007503 β”‚ β”‚ 15 β”‚ f(x)= 2.4901 β”‚ 9.36e-08 β”‚ 2.489 0.0008413 β”‚ β”‚ 16 β”‚ f(x)= 1.7093 β”‚ 3.9e-08 β”‚ 1.708 0.0008383 β”‚ β”‚ 17 β”‚ f(x)= 1.3554 β”‚ 3.96e-08 β”‚ 1.355 0.0008676 β”‚ β”‚ 18 β”‚ f(x)= 0.88158 β”‚ 4.29e-08 β”‚ 0.8807 0.0008846 β”‚ β”‚ 19 β”‚ f(x)= 0.47993 β”‚ 1.58e-08 β”‚ 0.479 0.000918 β”‚ β”‚ 20 β”‚ f(x)= 0.3988 β”‚ 1.11e-08 β”‚ 0.3979 0.0009198 β”‚ β”‚ 21 β”‚ f(x)= 0.32703 β”‚ 1.1e-08 β”‚ 0.3261 0.0009321 β”‚ β”‚ 22 β”‚ f(x)= 0.20304 β”‚ 9.74e-09 β”‚ 0.202 0.0009873 β”‚ β”‚ 23 β”‚ f(x)= 0.19354 β”‚ 2e-08 β”‚ 0.1925 0.001014 β”‚ β”‚ 24 β”‚ f(x)= 0.1317 β”‚ 8.99e-09 β”‚ 0.1307 0.001016 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037144 Total Core solution elapsed time: 3.97347 Linear solver elapsed time: 3.42025 (86%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 5/31, alpha value: 1.5849e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.006294 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.189e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.002104 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 0.0001256 β”‚ β”‚ 6 β”‚ f(x)= 749.27 β”‚ 7.53e-06 β”‚ 749.3 0.001692 β”‚ β”‚ 7 β”‚ f(x)= 165.56 β”‚ 1.42e-06 β”‚ 165.6 0.0004508 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.001038 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0009057 β”‚ β”‚ 10 β”‚ f(x)= 52.095 β”‚ 4.15e-07 β”‚ 52.09 0.001 β”‚ β”‚ 11 β”‚ f(x)= 26.464 β”‚ 2.72e-07 β”‚ 26.46 0.001357 β”‚ β”‚ 12 β”‚ f(x)= 15.28 β”‚ 1.65e-07 β”‚ 15.28 0.001446 β”‚ β”‚ 13 β”‚ f(x)= 9.8239 β”‚ 1.14e-07 β”‚ 9.822 0.001454 β”‚ β”‚ 14 β”‚ f(x)= 5.8098 β”‚ 9.69e-08 β”‚ 5.808 0.001497 β”‚ β”‚ 15 β”‚ f(x)= 2.4907 β”‚ 9.36e-08 β”‚ 2.489 0.001678 β”‚ β”‚ 16 β”‚ f(x)= 1.7099 β”‚ 3.9e-08 β”‚ 1.708 0.001672 β”‚ β”‚ 17 β”‚ f(x)= 1.356 β”‚ 3.96e-08 β”‚ 1.354 0.00173 β”‚ β”‚ 18 β”‚ f(x)= 0.88221 β”‚ 4.29e-08 β”‚ 0.8804 0.001764 β”‚ β”‚ 19 β”‚ f(x)= 0.48069 β”‚ 1.58e-08 β”‚ 0.4789 0.00183 β”‚ β”‚ 20 β”‚ f(x)= 0.39962 β”‚ 1.11e-08 β”‚ 0.3978 0.001833 β”‚ β”‚ 21 β”‚ f(x)= 0.32787 β”‚ 1.1e-08 β”‚ 0.326 0.001857 β”‚ β”‚ 22 β”‚ f(x)= 0.20388 β”‚ 9.74e-09 β”‚ 0.2019 0.001966 β”‚ β”‚ 23 β”‚ f(x)= 0.19449 β”‚ 2e-08 β”‚ 0.1925 0.002017 β”‚ β”‚ 24 β”‚ f(x)= 0.13256 β”‚ 8.99e-09 β”‚ 0.1305 0.00202 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036962 Total Core solution elapsed time: 3.76511 Linear solver elapsed time: 3.23906 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 6/31, alpha value: 3.1623e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.01256 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 2.372e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.004197 β”‚ β”‚ 5 β”‚ f(x)= 506.81 β”‚ 3.41e-06 β”‚ 506.8 0.0002507 β”‚ β”‚ 6 β”‚ f(x)= 749.23 β”‚ 7.53e-06 β”‚ 749.2 0.003376 β”‚ β”‚ 7 β”‚ f(x)= 165.56 β”‚ 1.42e-06 β”‚ 165.6 0.0008995 β”‚ β”‚ 8 β”‚ f(x)= 112.92 β”‚ 1.6e-06 β”‚ 112.9 0.002071 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.001807 β”‚ β”‚ 10 β”‚ f(x)= 52.092 β”‚ 4.15e-07 β”‚ 52.09 0.001995 β”‚ β”‚ 11 β”‚ f(x)= 26.465 β”‚ 2.72e-07 β”‚ 26.46 0.002708 β”‚ β”‚ 12 β”‚ f(x)= 15.281 β”‚ 1.65e-07 β”‚ 15.28 0.002884 β”‚ β”‚ 13 β”‚ f(x)= 9.8253 β”‚ 1.14e-07 β”‚ 9.822 0.002899 β”‚ β”‚ 14 β”‚ f(x)= 5.811 β”‚ 9.69e-08 β”‚ 5.808 0.002985 β”‚ β”‚ 15 β”‚ f(x)= 2.4918 β”‚ 9.36e-08 β”‚ 2.488 0.003345 β”‚ β”‚ 16 β”‚ f(x)= 1.711 β”‚ 3.9e-08 β”‚ 1.708 0.003332 β”‚ β”‚ 17 β”‚ f(x)= 1.3571 β”‚ 3.96e-08 β”‚ 1.354 0.003447 β”‚ β”‚ 18 β”‚ f(x)= 0.88346 β”‚ 4.29e-08 β”‚ 0.88 0.003513 β”‚ β”‚ 19 β”‚ f(x)= 0.48219 β”‚ 1.58e-08 β”‚ 0.4785 0.003643 β”‚ β”‚ 20 β”‚ f(x)= 0.40124 β”‚ 1.11e-08 β”‚ 0.3976 0.003648 β”‚ β”‚ 21 β”‚ f(x)= 0.32955 β”‚ 1.1e-08 β”‚ 0.3259 0.003694 β”‚ β”‚ 22 β”‚ f(x)= 0.20555 β”‚ 9.73e-09 β”‚ 0.2016 0.003905 β”‚ β”‚ 23 β”‚ f(x)= 0.19636 β”‚ 2.01e-08 β”‚ 0.1924 0.004 β”‚ β”‚ 24 β”‚ f(x)= 0.13426 β”‚ 8.97e-09 β”‚ 0.1303 0.004005 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037378 Total Core solution elapsed time: 3.8243 Linear solver elapsed time: 3.30324 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 7/31, alpha value: 6.3096e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.02506 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 4.732e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651 β”‚ 1.75e-05 β”‚ 2651 0.008374 β”‚ β”‚ 5 β”‚ f(x)= 506.79 β”‚ 3.41e-06 β”‚ 506.8 0.0005002 β”‚ β”‚ 6 β”‚ f(x)= 749.16 β”‚ 7.53e-06 β”‚ 749.2 0.006736 β”‚ β”‚ 7 β”‚ f(x)= 165.54 β”‚ 1.42e-06 β”‚ 165.5 0.001795 β”‚ β”‚ 8 β”‚ f(x)= 112.91 β”‚ 1.6e-06 β”‚ 112.9 0.004131 β”‚ β”‚ 9 β”‚ f(x)= 75.26 β”‚ 6.92e-07 β”‚ 75.26 0.003605 β”‚ β”‚ 10 β”‚ f(x)= 52.086 β”‚ 4.15e-07 β”‚ 52.08 0.003981 β”‚ β”‚ 11 β”‚ f(x)= 26.467 β”‚ 2.72e-07 β”‚ 26.46 0.005401 β”‚ β”‚ 12 β”‚ f(x)= 15.283 β”‚ 1.65e-07 β”‚ 15.28 0.005752 β”‚ β”‚ 13 β”‚ f(x)= 9.8281 β”‚ 1.14e-07 β”‚ 9.822 0.005781 β”‚ β”‚ 14 β”‚ f(x)= 5.8133 β”‚ 9.69e-08 β”‚ 5.807 0.00595 β”‚ β”‚ 15 β”‚ f(x)= 2.4941 β”‚ 9.36e-08 β”‚ 2.487 0.006662 β”‚ β”‚ 16 β”‚ f(x)= 1.7133 β”‚ 3.89e-08 β”‚ 1.707 0.006634 β”‚ β”‚ 17 β”‚ f(x)= 1.3593 β”‚ 3.96e-08 β”‚ 1.352 0.006861 β”‚ β”‚ 18 β”‚ f(x)= 0.88595 β”‚ 4.28e-08 β”‚ 0.879 0.006987 β”‚ β”‚ 19 β”‚ f(x)= 0.48517 β”‚ 1.58e-08 β”‚ 0.4779 0.007237 β”‚ β”‚ 20 β”‚ f(x)= 0.40445 β”‚ 1.11e-08 β”‚ 0.3972 0.007242 β”‚ β”‚ 21 β”‚ f(x)= 0.33288 β”‚ 1.1e-08 β”‚ 0.3255 0.007328 β”‚ β”‚ 22 β”‚ f(x)= 0.20884 β”‚ 9.71e-09 β”‚ 0.2011 0.007725 β”‚ β”‚ 23 β”‚ f(x)= 0.20004 β”‚ 2.02e-08 β”‚ 0.1922 0.007888 β”‚ β”‚ 24 β”‚ f(x)= 0.13758 β”‚ 8.95e-09 β”‚ 0.1297 0.007893 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037212 Total Core solution elapsed time: 3.80685 Linear solver elapsed time: 3.27022 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 8/31, alpha value: 1.2589e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.05 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 9.441e-06 β”‚ β”‚ 4 β”‚ f(x)= 2650.9 β”‚ 1.75e-05 β”‚ 2651 0.01671 β”‚ β”‚ 5 β”‚ f(x)= 506.76 β”‚ 3.41e-06 β”‚ 506.8 0.000998 β”‚ β”‚ 6 β”‚ f(x)= 749.03 β”‚ 7.53e-06 β”‚ 749 0.01344 β”‚ β”‚ 7 β”‚ f(x)= 165.52 β”‚ 1.42e-06 β”‚ 165.5 0.003581 β”‚ β”‚ 8 β”‚ f(x)= 112.9 β”‚ 1.6e-06 β”‚ 112.9 0.008239 β”‚ β”‚ 9 β”‚ f(x)= 75.261 β”‚ 6.92e-07 β”‚ 75.25 0.007192 β”‚ β”‚ 10 β”‚ f(x)= 52.075 β”‚ 4.15e-07 β”‚ 52.07 0.007942 β”‚ β”‚ 11 β”‚ f(x)= 26.472 β”‚ 2.72e-07 β”‚ 26.46 0.01077 β”‚ β”‚ 12 β”‚ f(x)= 15.287 β”‚ 1.65e-07 β”‚ 15.28 0.01147 β”‚ β”‚ 13 β”‚ f(x)= 9.8336 β”‚ 1.14e-07 β”‚ 9.822 0.01152 β”‚ β”‚ 14 β”‚ f(x)= 5.8178 β”‚ 9.69e-08 β”‚ 5.806 0.01185 β”‚ β”‚ 15 β”‚ f(x)= 2.4987 β”‚ 9.35e-08 β”‚ 2.485 0.01325 β”‚ β”‚ 16 β”‚ f(x)= 1.7179 β”‚ 3.89e-08 β”‚ 1.705 0.01318 β”‚ β”‚ 17 β”‚ f(x)= 1.3636 β”‚ 3.95e-08 β”‚ 1.35 0.01362 β”‚ β”‚ 18 β”‚ f(x)= 0.89087 β”‚ 4.28e-08 β”‚ 0.877 0.01385 β”‚ β”‚ 19 β”‚ f(x)= 0.49105 β”‚ 1.58e-08 β”‚ 0.4767 0.01432 β”‚ β”‚ 20 β”‚ f(x)= 0.41077 β”‚ 1.11e-08 β”‚ 0.3965 0.01431 β”‚ β”‚ 21 β”‚ f(x)= 0.3394 β”‚ 1.1e-08 β”‚ 0.3249 0.01445 β”‚ β”‚ 22 β”‚ f(x)= 0.21524 β”‚ 9.68e-09 β”‚ 0.2001 0.01515 β”‚ β”‚ 23 β”‚ f(x)= 0.20712 β”‚ 2.03e-08 β”‚ 0.1917 0.01538 β”‚ β”‚ 24 β”‚ f(x)= 0.14393 β”‚ 8.92e-09 β”‚ 0.1286 0.01537 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036833 Total Core solution elapsed time: 3.82487 Linear solver elapsed time: 3.28433 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 9/31, alpha value: 2.5119e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.09976 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.884e-05 β”‚ β”‚ 4 β”‚ f(x)= 2650.6 β”‚ 1.75e-05 β”‚ 2651 0.03332 β”‚ β”‚ 5 β”‚ f(x)= 506.7 β”‚ 3.4e-06 β”‚ 506.7 0.001991 β”‚ β”‚ 6 β”‚ f(x)= 748.75 β”‚ 7.53e-06 β”‚ 748.7 0.0268 β”‚ β”‚ 7 β”‚ f(x)= 165.47 β”‚ 1.42e-06 β”‚ 165.5 0.007144 β”‚ β”‚ 8 β”‚ f(x)= 112.87 β”‚ 1.6e-06 β”‚ 112.9 0.01643 β”‚ β”‚ 9 β”‚ f(x)= 75.263 β”‚ 6.92e-07 β”‚ 75.25 0.01434 β”‚ β”‚ 10 β”‚ f(x)= 52.052 β”‚ 4.15e-07 β”‚ 52.04 0.01584 β”‚ β”‚ 11 β”‚ f(x)= 26.482 β”‚ 2.72e-07 β”‚ 26.46 0.02147 β”‚ β”‚ 12 β”‚ f(x)= 15.295 β”‚ 1.65e-07 β”‚ 15.27 0.02285 β”‚ β”‚ 13 β”‚ f(x)= 9.8446 β”‚ 1.14e-07 β”‚ 9.822 0.02292 β”‚ β”‚ 14 β”‚ f(x)= 5.8268 β”‚ 9.69e-08 β”‚ 5.803 0.02354 β”‚ β”‚ 15 β”‚ f(x)= 2.5076 β”‚ 9.34e-08 β”‚ 2.481 0.02626 β”‚ β”‚ 16 β”‚ f(x)= 1.7268 β”‚ 3.89e-08 β”‚ 1.701 0.02608 β”‚ β”‚ 17 β”‚ f(x)= 1.3721 β”‚ 3.95e-08 β”‚ 1.345 0.02691 β”‚ β”‚ 18 β”‚ f(x)= 0.90047 β”‚ 4.27e-08 β”‚ 0.8732 0.0273 β”‚ β”‚ 19 β”‚ f(x)= 0.50251 β”‚ 1.57e-08 β”‚ 0.4744 0.02808 β”‚ β”‚ 20 β”‚ f(x)= 0.42306 β”‚ 1.11e-08 β”‚ 0.3951 0.02799 β”‚ β”‚ 21 β”‚ f(x)= 0.35201 β”‚ 1.1e-08 β”‚ 0.3238 0.02819 β”‚ β”‚ 22 β”‚ f(x)= 0.22742 β”‚ 9.65e-09 β”‚ 0.1982 0.02924 β”‚ β”‚ 23 β”‚ f(x)= 0.22033 β”‚ 2.06e-08 β”‚ 0.191 0.02932 β”‚ β”‚ 24 β”‚ f(x)= 0.15559 β”‚ 8.91e-09 β”‚ 0.1263 0.02925 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.041364 Total Core solution elapsed time: 3.78294 Linear solver elapsed time: 3.26257 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 10/31, alpha value: 5.0119e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.199 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 3.759e-05 β”‚ β”‚ 4 β”‚ f(x)= 2650 β”‚ 1.75e-05 β”‚ 2650 0.06645 β”‚ β”‚ 5 β”‚ f(x)= 506.57 β”‚ 3.4e-06 β”‚ 506.6 0.003973 β”‚ β”‚ 6 β”‚ f(x)= 748.2 β”‚ 7.53e-06 β”‚ 748.1 0.05341 β”‚ β”‚ 7 β”‚ f(x)= 165.37 β”‚ 1.42e-06 β”‚ 165.4 0.01425 β”‚ β”‚ 8 β”‚ f(x)= 112.81 β”‚ 1.6e-06 β”‚ 112.8 0.03274 β”‚ β”‚ 9 β”‚ f(x)= 75.268 β”‚ 6.92e-07 β”‚ 75.24 0.02859 β”‚ β”‚ 10 β”‚ f(x)= 52.006 β”‚ 4.14e-07 β”‚ 51.97 0.03157 β”‚ β”‚ 11 β”‚ f(x)= 26.501 β”‚ 2.72e-07 β”‚ 26.46 0.04275 β”‚ β”‚ 12 β”‚ f(x)= 15.31 β”‚ 1.65e-07 β”‚ 15.26 0.04544 β”‚ β”‚ 13 β”‚ f(x)= 9.8662 β”‚ 1.14e-07 β”‚ 9.821 0.04549 β”‚ β”‚ 14 β”‚ f(x)= 5.8443 β”‚ 9.69e-08 β”‚ 5.798 0.04661 β”‚ β”‚ 15 β”‚ f(x)= 2.525 β”‚ 9.33e-08 β”‚ 2.473 0.05169 β”‚ β”‚ 16 β”‚ f(x)= 1.7441 β”‚ 3.89e-08 β”‚ 1.693 0.05117 β”‚ β”‚ 17 β”‚ f(x)= 1.3885 β”‚ 3.94e-08 β”‚ 1.336 0.05264 β”‚ β”‚ 18 β”‚ f(x)= 0.91888 β”‚ 4.25e-08 β”‚ 0.8657 0.05313 β”‚ β”‚ 19 β”‚ f(x)= 0.52432 β”‚ 1.57e-08 β”‚ 0.4701 0.05419 β”‚ β”‚ 20 β”‚ f(x)= 0.44626 β”‚ 1.11e-08 β”‚ 0.3925 0.05373 β”‚ β”‚ 21 β”‚ f(x)= 0.37552 β”‚ 1.1e-08 β”‚ 0.3217 0.0538 β”‚ β”‚ 22 β”‚ f(x)= 0.24904 β”‚ 9.7e-09 β”‚ 0.1943 0.0547 β”‚ β”‚ 23 β”‚ f(x)= 0.24513 β”‚ 2.14e-08 β”‚ 0.1915 0.05361 β”‚ β”‚ 24 β”‚ f(x)= 0.17588 β”‚ 9.03e-09 β”‚ 0.1225 0.05334 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036956 Total Core solution elapsed time: 3.85846 Linear solver elapsed time: 3.32319 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 11/31, alpha value: 1e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-31 β”‚ β”‚ 2 β”‚ f(x)= 71316 β”‚ 0.000249 β”‚ 7.132e+04 0.3972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 7.5e-05 β”‚ β”‚ 4 β”‚ f(x)= 2648.8 β”‚ 1.75e-05 β”‚ 2649 0.1324 β”‚ β”‚ 5 β”‚ f(x)= 506.33 β”‚ 3.4e-06 β”‚ 506.3 0.007926 β”‚ β”‚ 6 β”‚ f(x)= 747.1 β”‚ 7.52e-06 β”‚ 747 0.1063 β”‚ β”‚ 7 β”‚ f(x)= 165.17 β”‚ 1.41e-06 β”‚ 165.1 0.02843 β”‚ β”‚ 8 β”‚ f(x)= 112.7 β”‚ 1.6e-06 β”‚ 112.6 0.06515 β”‚ β”‚ 9 β”‚ f(x)= 75.277 β”‚ 6.93e-07 β”‚ 75.22 0.05695 β”‚ β”‚ 10 β”‚ f(x)= 51.914 β”‚ 4.13e-07 β”‚ 51.85 0.06289 β”‚ β”‚ 11 β”‚ f(x)= 26.538 β”‚ 2.72e-07 β”‚ 26.45 0.08494 β”‚ β”‚ 12 β”‚ f(x)= 15.34 β”‚ 1.65e-07 β”‚ 15.25 0.09009 β”‚ β”‚ 13 β”‚ f(x)= 9.9083 β”‚ 1.14e-07 β”‚ 9.818 0.08979 β”‚ β”‚ 14 β”‚ f(x)= 5.8778 β”‚ 9.68e-08 β”‚ 5.786 0.09155 β”‚ β”‚ 15 β”‚ f(x)= 2.5582 β”‚ 9.29e-08 β”‚ 2.458 0.1005 β”‚ β”‚ 16 β”‚ f(x)= 1.7765 β”‚ 3.88e-08 β”‚ 1.678 0.09881 β”‚ β”‚ 17 β”‚ f(x)= 1.4188 β”‚ 3.94e-08 β”‚ 1.318 0.1011 β”‚ β”‚ 18 β”‚ f(x)= 0.95274 β”‚ 4.21e-08 β”‚ 0.8517 0.101 β”‚ β”‚ 19 β”‚ f(x)= 0.56408 β”‚ 1.58e-08 β”‚ 0.4627 0.1014 β”‚ β”‚ 20 β”‚ f(x)= 0.488 β”‚ 1.12e-08 β”‚ 0.3884 0.09956 β”‚ β”‚ 21 β”‚ f(x)= 0.41705 β”‚ 1.12e-08 β”‚ 0.3184 0.09862 β”‚ β”‚ 22 β”‚ f(x)= 0.28568 β”‚ 1e-08 β”‚ 0.189 0.09667 β”‚ β”‚ 23 β”‚ f(x)= 0.28121 β”‚ 2.25e-08 β”‚ 0.1903 0.09089 β”‚ β”‚ 24 β”‚ f(x)= 0.20437 β”‚ 9.54e-09 β”‚ 0.1145 0.08988 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037959 Total Core solution elapsed time: 3.79093 Linear solver elapsed time: 3.26833 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 12/31, alpha value: 1.9953e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-31 β”‚ β”‚ 2 β”‚ f(x)= 71316 β”‚ 0.000249 β”‚ 7.132e+04 0.7924 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0001496 β”‚ β”‚ 4 β”‚ f(x)= 2646.5 β”‚ 1.75e-05 β”‚ 2646 0.2636 β”‚ β”‚ 5 β”‚ f(x)= 505.83 β”‚ 3.4e-06 β”‚ 505.8 0.01581 β”‚ β”‚ 6 β”‚ f(x)= 744.93 β”‚ 7.5e-06 β”‚ 744.7 0.2113 β”‚ β”‚ 7 β”‚ f(x)= 164.78 β”‚ 1.41e-06 β”‚ 164.7 0.05669 β”‚ β”‚ 8 β”‚ f(x)= 112.47 β”‚ 1.59e-06 β”‚ 112.3 0.1293 β”‚ β”‚ 9 β”‚ f(x)= 75.295 β”‚ 6.93e-07 β”‚ 75.18 0.1133 β”‚ β”‚ 10 β”‚ f(x)= 51.727 β”‚ 4.11e-07 β”‚ 51.6 0.125 β”‚ β”‚ 11 β”‚ f(x)= 26.608 β”‚ 2.72e-07 β”‚ 26.44 0.1681 β”‚ β”‚ 12 β”‚ f(x)= 15.398 β”‚ 1.64e-07 β”‚ 15.22 0.1775 β”‚ β”‚ 13 β”‚ f(x)= 9.9877 β”‚ 1.14e-07 β”‚ 9.812 0.1754 β”‚ β”‚ 14 β”‚ f(x)= 5.9387 β”‚ 9.68e-08 β”‚ 5.762 0.1771 β”‚ β”‚ 15 β”‚ f(x)= 2.6183 β”‚ 9.23e-08 β”‚ 2.428 0.1904 β”‚ β”‚ 16 β”‚ f(x)= 1.8337 β”‚ 3.87e-08 β”‚ 1.649 0.1851 β”‚ β”‚ 17 β”‚ f(x)= 1.4709 β”‚ 3.93e-08 β”‚ 1.284 0.1873 β”‚ β”‚ 18 β”‚ f(x)= 1.0103 β”‚ 4.16e-08 β”‚ 0.8264 0.184 β”‚ β”‚ 19 β”‚ f(x)= 0.63073 β”‚ 1.61e-08 β”‚ 0.4515 0.1793 β”‚ β”‚ 20 β”‚ f(x)= 0.55607 β”‚ 1.16e-08 β”‚ 0.3829 0.1732 β”‚ β”‚ 21 β”‚ f(x)= 0.48233 β”‚ 1.2e-08 β”‚ 0.314 0.1683 β”‚ β”‚ 22 β”‚ f(x)= 0.3383 β”‚ 1.1e-08 β”‚ 0.1828 0.1555 β”‚ β”‚ 23 β”‚ f(x)= 0.32401 β”‚ 2.36e-08 β”‚ 0.1865 0.1375 β”‚ β”‚ 24 β”‚ f(x)= 0.23509 β”‚ 1.04e-08 β”‚ 0.1012 0.1339 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.03681 Total Core solution elapsed time: 4.06745 Linear solver elapsed time: 3.49467 (86%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 13/31, alpha value: 3.9811e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-31 β”‚ β”‚ 2 β”‚ f(x)= 71317 β”‚ 0.000249 β”‚ 7.132e+04 1.581 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0002986 β”‚ β”‚ 4 β”‚ f(x)= 2641.8 β”‚ 1.75e-05 β”‚ 2641 0.5236 β”‚ β”‚ 5 β”‚ f(x)= 504.84 β”‚ 3.4e-06 β”‚ 504.8 0.03154 β”‚ β”‚ 6 β”‚ f(x)= 740.62 β”‚ 7.47e-06 β”‚ 740.2 0.4182 β”‚ β”‚ 7 β”‚ f(x)= 164 β”‚ 1.4e-06 β”‚ 163.9 0.113 β”‚ β”‚ 8 β”‚ f(x)= 112.02 β”‚ 1.58e-06 β”‚ 111.8 0.2555 β”‚ β”‚ 9 β”‚ f(x)= 75.329 β”‚ 6.95e-07 β”‚ 75.1 0.2244 β”‚ β”‚ 10 β”‚ f(x)= 51.343 β”‚ 4.07e-07 β”‚ 51.1 0.2478 β”‚ β”‚ 11 β”‚ f(x)= 26.736 β”‚ 2.73e-07 β”‚ 26.41 0.33 β”‚ β”‚ 12 β”‚ f(x)= 15.505 β”‚ 1.64e-07 β”‚ 15.16 0.3454 β”‚ β”‚ 13 β”‚ f(x)= 10.129 β”‚ 1.15e-07 β”‚ 9.793 0.3359 β”‚ β”‚ 14 β”‚ f(x)= 6.0385 β”‚ 9.7e-08 β”‚ 5.706 0.3329 β”‚ β”‚ 15 β”‚ f(x)= 2.7172 β”‚ 9.13e-08 β”‚ 2.372 0.345 β”‚ β”‚ 16 β”‚ f(x)= 1.9222 β”‚ 3.89e-08 β”‚ 1.594 0.3282 β”‚ β”‚ 17 β”‚ f(x)= 1.5474 β”‚ 3.95e-08 β”‚ 1.221 0.3262 β”‚ β”‚ 18 β”‚ f(x)= 1.095 β”‚ 4.08e-08 β”‚ 0.7836 0.3114 β”‚ β”‚ 19 β”‚ f(x)= 0.72886 β”‚ 1.74e-08 β”‚ 0.4387 0.2902 β”‚ β”‚ 20 β”‚ f(x)= 0.65102 β”‚ 1.27e-08 β”‚ 0.3776 0.2734 β”‚ β”‚ 21 β”‚ f(x)= 0.5688 β”‚ 1.37e-08 β”‚ 0.3102 0.2586 β”‚ β”‚ 22 β”‚ f(x)= 0.40718 β”‚ 1.27e-08 β”‚ 0.1807 0.2265 β”‚ β”‚ 23 β”‚ f(x)= 0.35477 β”‚ 1.95e-08 β”‚ 0.1576 0.1972 β”‚ β”‚ 24 β”‚ f(x)= 0.28407 β”‚ 9.59e-09 β”‚ 0.09237 0.1917 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037183 Total Core solution elapsed time: 3.84354 Linear solver elapsed time: 3.30409 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 14/31, alpha value: 7.9433e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-30 β”‚ β”‚ 2 β”‚ f(x)= 71318 β”‚ 0.000249 β”‚ 7.132e+04 3.155 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0005957 β”‚ β”‚ 4 β”‚ f(x)= 2632.6 β”‚ 1.75e-05 β”‚ 2632 1.035 β”‚ β”‚ 5 β”‚ f(x)= 502.88 β”‚ 3.39e-06 β”‚ 502.8 0.06289 β”‚ β”‚ 6 β”‚ f(x)= 732.15 β”‚ 7.42e-06 β”‚ 731.3 0.8211 β”‚ β”‚ 7 β”‚ f(x)= 162.48 β”‚ 1.38e-06 β”‚ 162.3 0.2249 β”‚ β”‚ 8 β”‚ f(x)= 111.16 β”‚ 1.55e-06 β”‚ 110.7 0.4996 β”‚ β”‚ 9 β”‚ f(x)= 75.39 β”‚ 6.99e-07 β”‚ 74.95 0.4418 β”‚ β”‚ 10 β”‚ f(x)= 50.528 β”‚ 4e-07 β”‚ 50.04 0.488 β”‚ β”‚ 11 β”‚ f(x)= 26.939 β”‚ 2.73e-07 β”‚ 26.3 0.6385 β”‚ β”‚ 12 β”‚ f(x)= 15.686 β”‚ 1.64e-07 β”‚ 15.03 0.6564 β”‚ β”‚ 13 β”‚ f(x)= 10.347 β”‚ 1.15e-07 β”‚ 9.727 0.6193 β”‚ β”‚ 14 β”‚ f(x)= 6.1591 β”‚ 9.76e-08 β”‚ 5.566 0.593 β”‚ β”‚ 15 β”‚ f(x)= 2.8498 β”‚ 8.9e-08 β”‚ 2.27 0.5799 β”‚ β”‚ 16 β”‚ f(x)= 2.0279 β”‚ 3.93e-08 β”‚ 1.493 0.5346 β”‚ β”‚ 17 β”‚ f(x)= 1.6307 β”‚ 3.96e-08 β”‚ 1.112 0.519 β”‚ β”‚ 18 β”‚ f(x)= 1.1982 β”‚ 3.85e-08 β”‚ 0.7189 0.4792 β”‚ β”‚ 19 β”‚ f(x)= 0.86622 β”‚ 2.08e-08 β”‚ 0.4383 0.4279 β”‚ β”‚ 20 β”‚ f(x)= 0.77055 β”‚ 1.41e-08 β”‚ 0.3755 0.3951 β”‚ β”‚ 21 β”‚ f(x)= 0.6789 β”‚ 1.52e-08 β”‚ 0.3095 0.3694 β”‚ β”‚ 22 β”‚ f(x)= 0.53209 β”‚ 1.29e-08 β”‚ 0.1964 0.3357 β”‚ β”‚ 23 β”‚ f(x)= 0.48606 β”‚ 1.48e-08 β”‚ 0.1726 0.3134 β”‚ β”‚ 24 β”‚ f(x)= 0.45428 β”‚ 7.4e-09 β”‚ 0.1458 0.3085 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.042461 Total Core solution elapsed time: 4.29412 Linear solver elapsed time: 3.65996 (85%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 15/31, alpha value: 1.5849e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-30 β”‚ β”‚ 2 β”‚ f(x)= 71321 β”‚ 0.000249 β”‚ 7.132e+04 6.294 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.001188 β”‚ β”‚ 4 β”‚ f(x)= 2614.6 β”‚ 1.74e-05 β”‚ 2613 2.027 β”‚ β”‚ 5 β”‚ f(x)= 498.99 β”‚ 3.37e-06 β”‚ 498.9 0.1253 β”‚ β”‚ 6 β”‚ f(x)= 715.74 β”‚ 7.3e-06 β”‚ 714.2 1.586 β”‚ β”‚ 7 β”‚ f(x)= 159.59 β”‚ 1.34e-06 β”‚ 159.1 0.4465 β”‚ β”‚ 8 β”‚ f(x)= 109.6 β”‚ 1.51e-06 β”‚ 108.6 0.9585 β”‚ β”‚ 9 β”‚ f(x)= 75.481 β”‚ 7.07e-07 β”‚ 74.62 0.8584 β”‚ β”‚ 10 β”‚ f(x)= 48.7 β”‚ 3.84e-07 β”‚ 47.75 0.9505 β”‚ β”‚ 11 β”‚ f(x)= 27.145 β”‚ 2.73e-07 β”‚ 25.94 1.202 β”‚ β”‚ 12 β”‚ f(x)= 15.936 β”‚ 1.64e-07 β”‚ 14.74 1.191 β”‚ β”‚ 13 β”‚ f(x)= 10.553 β”‚ 1.17e-07 β”‚ 9.487 1.066 β”‚ β”‚ 14 β”‚ f(x)= 6.1427 β”‚ 9.86e-08 β”‚ 5.177 0.9655 β”‚ β”‚ 15 β”‚ f(x)= 2.9664 β”‚ 8.05e-08 β”‚ 2.076 0.8903 β”‚ β”‚ 16 β”‚ f(x)= 2.1124 β”‚ 3.89e-08 β”‚ 1.309 0.8031 β”‚ β”‚ 17 β”‚ f(x)= 1.701 β”‚ 3.68e-08 β”‚ 0.9295 0.7715 β”‚ β”‚ 18 β”‚ f(x)= 1.3505 β”‚ 3.01e-08 β”‚ 0.6506 0.6999 β”‚ β”‚ 19 β”‚ f(x)= 1.1135 β”‚ 2.42e-08 β”‚ 0.4919 0.6217 β”‚ β”‚ 20 β”‚ f(x)= 0.98023 β”‚ 1.54e-08 β”‚ 0.4035 0.5768 β”‚ β”‚ 21 β”‚ f(x)= 0.89005 β”‚ 1.36e-08 β”‚ 0.3359 0.5542 β”‚ β”‚ 22 β”‚ f(x)= 0.80506 β”‚ 1e-08 β”‚ 0.2687 0.5364 β”‚ β”‚ 23 β”‚ f(x)= 0.77753 β”‚ 9.51e-09 β”‚ 0.254 0.5236 β”‚ β”‚ 24 β”‚ f(x)= 0.7725 β”‚ 5.22e-09 β”‚ 0.2529 0.5196 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.038502 Total Core solution elapsed time: 3.81238 Linear solver elapsed time: 3.27686 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 16/31, alpha value: 3.1623e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-30 β”‚ β”‚ 2 β”‚ f(x)= 71328 β”‚ 0.000249 β”‚ 7.132e+04 12.56 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.002371 β”‚ β”‚ 4 β”‚ f(x)= 2579.7 β”‚ 1.72e-05 β”‚ 2576 3.899 β”‚ β”‚ 5 β”‚ f(x)= 491.37 β”‚ 3.34e-06 β”‚ 491.1 0.2491 β”‚ β”‚ 6 β”‚ f(x)= 684.91 β”‚ 7.08e-06 β”‚ 681.9 2.971 β”‚ β”‚ 7 β”‚ f(x)= 154.31 β”‚ 1.26e-06 β”‚ 153.4 0.8809 β”‚ β”‚ 8 β”‚ f(x)= 106.96 β”‚ 1.42e-06 β”‚ 105.2 1.772 β”‚ β”‚ 9 β”‚ f(x)= 75.54 β”‚ 7.22e-07 β”‚ 73.91 1.626 β”‚ β”‚ 10 β”‚ f(x)= 44.378 β”‚ 3.49e-07 β”‚ 42.55 1.826 β”‚ β”‚ 11 β”‚ f(x)= 26.817 β”‚ 2.68e-07 β”‚ 24.66 2.155 β”‚ β”‚ 12 β”‚ f(x)= 16.012 β”‚ 1.64e-07 β”‚ 14.03 1.986 β”‚ β”‚ 13 β”‚ f(x)= 10.337 β”‚ 1.21e-07 β”‚ 8.699 1.638 β”‚ β”‚ 14 β”‚ f(x)= 5.5311 β”‚ 9.32e-08 β”‚ 4.102 1.429 β”‚ β”‚ 15 β”‚ f(x)= 3.1484 β”‚ 5.6e-08 β”‚ 1.806 1.343 β”‚ β”‚ 16 β”‚ f(x)= 2.315 β”‚ 3.11e-08 β”‚ 1.092 1.223 β”‚ β”‚ 17 β”‚ f(x)= 1.8526 β”‚ 2.32e-08 β”‚ 0.751 1.102 β”‚ β”‚ 18 β”‚ f(x)= 1.6139 β”‚ 2.65e-08 β”‚ 0.6366 0.9773 β”‚ β”‚ 19 β”‚ f(x)= 1.4507 β”‚ 1.58e-08 β”‚ 0.5291 0.9216 β”‚ β”‚ 20 β”‚ f(x)= 1.3946 β”‚ 7.97e-09 β”‚ 0.4847 0.9099 β”‚ β”‚ 21 β”‚ f(x)= 1.3627 β”‚ 4.73e-09 β”‚ 0.4615 0.9012 β”‚ β”‚ 22 β”‚ f(x)= 1.3529 β”‚ 2.96e-09 β”‚ 0.4574 0.8955 β”‚ β”‚ 23 β”‚ f(x)= 1.3518 β”‚ 1.53e-09 β”‚ 0.4584 0.8934 β”‚ β”‚ 24 β”‚ f(x)= 1.3503 β”‚ 1.11e-09 β”‚ 0.4562 0.8941 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037432 Total Core solution elapsed time: 3.81684 Linear solver elapsed time: 3.27916 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 17/31, alpha value: 6.3096e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-29 β”‚ β”‚ 2 β”‚ f(x)= 71340 β”‚ 0.000249 β”‚ 7.132e+04 25.06 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.004729 β”‚ β”‚ 4 β”‚ f(x)= 2514.6 β”‚ 1.69e-05 β”‚ 2507 7.231 β”‚ β”‚ 5 β”‚ f(x)= 476.73 β”‚ 3.27e-06 β”‚ 476.2 0.492 β”‚ β”‚ 6 β”‚ f(x)= 630.13 β”‚ 6.69e-06 β”‚ 624.9 5.245 β”‚ β”‚ 7 β”‚ f(x)= 145.64 β”‚ 1.12e-06 β”‚ 143.9 1.711 β”‚ β”‚ 8 β”‚ f(x)= 103.26 β”‚ 1.28e-06 β”‚ 100.2 3.061 β”‚ β”‚ 9 β”‚ f(x)= 75.109 β”‚ 7.54e-07 β”‚ 72.17 2.936 β”‚ β”‚ 10 β”‚ f(x)= 35.538 β”‚ 2.92e-07 β”‚ 32.03 3.504 β”‚ β”‚ 11 β”‚ f(x)= 23.763 β”‚ 2.37e-07 β”‚ 20.43 3.337 β”‚ β”‚ 12 β”‚ f(x)= 12.756 β”‚ 1.5e-07 β”‚ 10.16 2.596 β”‚ β”‚ 13 β”‚ f(x)= 8.4958 β”‚ 1.21e-07 β”‚ 6.236 2.259 β”‚ β”‚ 14 β”‚ f(x)= 4.2447 β”‚ 1.44e-07 β”‚ 2.058 2.186 β”‚ β”‚ 15 β”‚ f(x)= 3.7719 β”‚ 4.92e-08 β”‚ 1.792 1.98 β”‚ β”‚ 16 β”‚ f(x)= 3.5023 β”‚ 4.11e-08 β”‚ 1.557 1.945 β”‚ β”‚ 17 β”‚ f(x)= 2.9667 β”‚ 5.72e-08 β”‚ 1.111 1.856 β”‚ β”‚ 18 β”‚ f(x)= 2.7003 β”‚ 4.19e-08 β”‚ 0.9679 1.732 β”‚ β”‚ 19 β”‚ f(x)= 2.4567 β”‚ 1.29e-08 β”‚ 0.8783 1.578 β”‚ β”‚ 20 β”‚ f(x)= 2.4154 β”‚ 8.32e-09 β”‚ 0.861 1.554 β”‚ β”‚ 21 β”‚ f(x)= 2.3868 β”‚ 5.1e-09 β”‚ 0.8364 1.55 β”‚ β”‚ 22 β”‚ f(x)= 2.3732 β”‚ 2.58e-09 β”‚ 0.8241 1.549 β”‚ β”‚ 23 β”‚ f(x)= 2.368 β”‚ 1.47e-09 β”‚ 0.8177 1.55 β”‚ β”‚ 24 β”‚ f(x)= 2.3671 β”‚ 1.04e-09 β”‚ 0.8168 1.55 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037373 Total Core solution elapsed time: 3.54313 Linear solver elapsed time: 3.05095 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 18/31, alpha value: 1.2589e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-29 β”‚ β”‚ 2 β”‚ f(x)= 71365 β”‚ 0.00025 β”‚ 7.132e+04 50 β”‚ β”‚ 3 β”‚ f(x)= 1194.8 β”‚ 5.01e-06 β”‚ 1195 0.009429 β”‚ β”‚ 4 β”‚ f(x)= 2400.9 β”‚ 1.64e-05 β”‚ 2388 12.48 β”‚ β”‚ 5 β”‚ f(x)= 449.89 β”‚ 3.14e-06 β”‚ 448.9 0.9526 β”‚ β”‚ 6 β”‚ f(x)= 542.72 β”‚ 6.03e-06 β”‚ 534.4 8.318 β”‚ β”‚ 7 β”‚ f(x)= 134.5 β”‚ 9.25e-07 β”‚ 131.3 3.189 β”‚ β”‚ 8 β”‚ f(x)= 99.858 β”‚ 1.09e-06 β”‚ 95.13 4.728 β”‚ β”‚ 9 β”‚ f(x)= 71.497 β”‚ 8.08e-07 β”‚ 66.59 4.908 β”‚ β”‚ 10 β”‚ f(x)= 27.361 β”‚ 2.91e-07 β”‚ 22.58 4.781 β”‚ β”‚ 11 β”‚ f(x)= 18.463 β”‚ 1.81e-07 β”‚ 14.19 4.269 β”‚ β”‚ 12 β”‚ f(x)= 13.458 β”‚ 1.52e-07 β”‚ 9.475 3.983 β”‚ β”‚ 13 β”‚ f(x)= 9.126 β”‚ 1.55e-07 β”‚ 5.443 3.683 β”‚ β”‚ 14 β”‚ f(x)= 6.0482 β”‚ 1.09e-07 β”‚ 2.429 3.619 β”‚ β”‚ 15 β”‚ f(x)= 5.5774 β”‚ 7.11e-08 β”‚ 2.322 3.255 β”‚ β”‚ 16 β”‚ f(x)= 5.1381 β”‚ 5.25e-08 β”‚ 2.029 3.109 β”‚ β”‚ 17 β”‚ f(x)= 4.3403 β”‚ 2.96e-08 β”‚ 1.498 2.842 β”‚ β”‚ 18 β”‚ f(x)= 4.243 β”‚ 1.55e-08 β”‚ 1.539 2.704 β”‚ β”‚ 19 β”‚ f(x)= 4.2032 β”‚ 1.01e-08 β”‚ 1.532 2.671 β”‚ β”‚ 20 β”‚ f(x)= 4.1959 β”‚ 5e-09 β”‚ 1.534 2.662 β”‚ β”‚ 21 β”‚ f(x)= 4.186 β”‚ 3.03e-09 β”‚ 1.526 2.66 β”‚ β”‚ 22 β”‚ f(x)= 4.1745 β”‚ 1.95e-09 β”‚ 1.514 2.661 β”‚ β”‚ 23 β”‚ f(x)= 4.1698 β”‚ 8.56e-10 β”‚ 1.509 2.661 β”‚ β”‚ 24 β”‚ f(x)= 4.1694 β”‚ 7.63e-10 β”‚ 1.508 2.661 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037326 Total Core solution elapsed time: 3.43394 Linear solver elapsed time: 2.94834 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 19/31, alpha value: 2.5119e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-29 β”‚ β”‚ 2 β”‚ f(x)= 71415 β”‚ 0.00025 β”‚ 7.132e+04 99.76 β”‚ β”‚ 3 β”‚ f(x)= 1194.9 β”‚ 5e-06 β”‚ 1195 0.01879 β”‚ β”‚ 4 β”‚ f(x)= 2229.3 β”‚ 1.55e-05 β”‚ 2210 18.88 β”‚ β”‚ 5 β”‚ f(x)= 406.67 β”‚ 2.92e-06 β”‚ 404.9 1.731 β”‚ β”‚ 6 β”‚ f(x)= 428.3 β”‚ 5.09e-06 β”‚ 417.1 11.18 β”‚ β”‚ 7 β”‚ f(x)= 127.62 β”‚ 8.59e-07 β”‚ 122.2 5.376 β”‚ β”‚ 8 β”‚ f(x)= 99.767 β”‚ 9.13e-07 β”‚ 93.47 6.301 β”‚ β”‚ 9 β”‚ f(x)= 50.151 β”‚ 7.36e-07 β”‚ 42.46 7.691 β”‚ β”‚ 10 β”‚ f(x)= 25.942 β”‚ 2.9e-07 β”‚ 19.57 6.376 β”‚ β”‚ 11 β”‚ f(x)= 17.735 β”‚ 1.49e-07 β”‚ 11.3 6.435 β”‚ β”‚ 12 β”‚ f(x)= 14.856 β”‚ 1.54e-07 β”‚ 8.565 6.291 β”‚ β”‚ 13 β”‚ f(x)= 10.305 β”‚ 1.29e-07 β”‚ 4.442 5.863 β”‚ β”‚ 14 β”‚ f(x)= 7.9344 β”‚ 9.54e-08 β”‚ 2.604 5.33 β”‚ β”‚ 15 β”‚ f(x)= 7.5698 β”‚ 8.64e-08 β”‚ 2.521 5.048 β”‚ β”‚ 16 β”‚ f(x)= 7.5498 β”‚ 2.22e-08 β”‚ 2.934 4.616 β”‚ β”‚ 17 β”‚ f(x)= 7.4841 β”‚ 1.98e-08 β”‚ 2.894 4.59 β”‚ β”‚ 18 β”‚ f(x)= 7.4563 β”‚ 1.59e-08 β”‚ 2.958 4.498 β”‚ β”‚ 19 β”‚ f(x)= 7.3577 β”‚ 1.14e-08 β”‚ 2.862 4.496 β”‚ β”‚ 20 β”‚ f(x)= 7.3385 β”‚ 7.56e-09 β”‚ 2.857 4.482 β”‚ β”‚ 21 β”‚ f(x)= 7.3376 β”‚ 2.51e-09 β”‚ 2.855 4.483 β”‚ β”‚ 22 β”‚ f(x)= 7.34 β”‚ 1.37e-09 β”‚ 2.858 4.482 β”‚ β”‚ 23 β”‚ f(x)= 7.3403 β”‚ 2.24e-09 β”‚ 2.858 4.483 β”‚ β”‚ 24 β”‚ f(x)= 7.3399 β”‚ 2.28e-09 β”‚ 2.857 4.483 β”‚ β”‚ 25 β”‚ f(x)= 7.3397 β”‚ 2.31e-09 β”‚ 2.857 4.483 β”‚ β”‚ 26 β”‚ f(x)= 7.3396 β”‚ 2.33e-09 β”‚ 2.857 4.483 β”‚ β”‚ 27 β”‚ f(x)= 7.3396 β”‚ 2.34e-09 β”‚ 2.857 4.483 β”‚ β”‚ 28 β”‚ f(x)= 7.3396 β”‚ 2.35e-09 β”‚ 2.857 4.483 β”‚ β”‚ 29 β”‚ f(x)= 7.3396 β”‚ 2.36e-09 β”‚ 2.857 4.483 β”‚ β”‚ 30 β”‚ f(x)= 7.3395 β”‚ 2.36e-09 β”‚ 2.857 4.483 β”‚ β”‚ 31 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 32 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 33 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 34 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 35 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 36 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 37 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 38 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 39 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 40 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036898 Total Core solution elapsed time: 3.81313 Linear solver elapsed time: 3.23523 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 20/31, alpha value: 5.0119e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-29 β”‚ β”‚ 2 β”‚ f(x)= 71514 β”‚ 0.00025 β”‚ 7.132e+04 199 β”‚ β”‚ 3 β”‚ f(x)= 1195 β”‚ 5e-06 β”‚ 1195 0.03739 β”‚ β”‚ 4 β”‚ f(x)= 2048.3 β”‚ 1.46e-05 β”‚ 2024 24.08 β”‚ β”‚ 5 β”‚ f(x)= 360.35 β”‚ 2.64e-06 β”‚ 357.7 2.687 β”‚ β”‚ 6 β”‚ f(x)= 325.84 β”‚ 4.11e-06 β”‚ 313.1 12.77 β”‚ β”‚ 7 β”‚ f(x)= 119.09 β”‚ 8.06e-07 β”‚ 113.1 6.017 β”‚ β”‚ 8 β”‚ f(x)= 95.44 β”‚ 6.52e-07 β”‚ 88.47 6.972 β”‚ β”‚ 9 β”‚ f(x)= 56.855 β”‚ 8e-07 β”‚ 46.92 9.931 β”‚ β”‚ 10 β”‚ f(x)= 39.071 β”‚ 4.61e-07 β”‚ 29.55 9.516 β”‚ β”‚ 11 β”‚ f(x)= 24.564 β”‚ 1.86e-07 β”‚ 14.58 9.987 β”‚ β”‚ 12 β”‚ f(x)= 21.157 β”‚ 2e-07 β”‚ 11.15 10.01 β”‚ β”‚ 13 β”‚ f(x)= 15.703 β”‚ 1.63e-07 β”‚ 6.414 9.289 β”‚ β”‚ 14 β”‚ f(x)= 13.315 β”‚ 1.76e-07 β”‚ 4.56 8.755 β”‚ β”‚ 15 β”‚ f(x)= 12.983 β”‚ 8.69e-08 β”‚ 5.057 7.927 β”‚ β”‚ 16 β”‚ f(x)= 13.11 β”‚ 2.89e-08 β”‚ 5.509 7.601 β”‚ β”‚ 17 β”‚ f(x)= 12.992 β”‚ 7.42e-08 β”‚ 5.144 7.849 β”‚ β”‚ 18 β”‚ f(x)= 12.988 β”‚ 7.43e-08 β”‚ 5.139 7.849 β”‚ β”‚ 19 β”‚ f(x)= 12.988 β”‚ 7.49e-08 β”‚ 5.136 7.853 β”‚ β”‚ 20 β”‚ f(x)= 12.991 β”‚ 7.79e-08 β”‚ 5.12 7.871 β”‚ β”‚ 21 β”‚ f(x)= 12.991 β”‚ 8.06e-08 β”‚ 5.104 7.887 β”‚ β”‚ 22 β”‚ f(x)= 12.99 β”‚ 8.25e-08 β”‚ 5.091 7.899 β”‚ β”‚ 23 β”‚ f(x)= 12.991 β”‚ 8.38e-08 β”‚ 5.084 7.907 β”‚ β”‚ 24 β”‚ f(x)= 12.99 β”‚ 8.47e-08 β”‚ 5.077 7.913 β”‚ β”‚ 25 β”‚ f(x)= 12.991 β”‚ 8.54e-08 β”‚ 5.074 7.917 β”‚ β”‚ 26 β”‚ f(x)= 12.99 β”‚ 8.58e-08 β”‚ 5.071 7.92 β”‚ β”‚ 27 β”‚ f(x)= 12.99 β”‚ 8.62e-08 β”‚ 5.068 7.922 β”‚ β”‚ 28 β”‚ f(x)= 12.989 β”‚ 8.64e-08 β”‚ 5.066 7.923 β”‚ β”‚ 29 β”‚ f(x)= 12.989 β”‚ 8.65e-08 β”‚ 5.064 7.924 β”‚ β”‚ 30 β”‚ f(x)= 12.988 β”‚ 8.66e-08 β”‚ 5.063 7.925 β”‚ β”‚ 31 β”‚ f(x)= 12.988 β”‚ 8.67e-08 β”‚ 5.063 7.925 β”‚ β”‚ 32 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.062 7.926 β”‚ β”‚ 33 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.062 7.926 β”‚ β”‚ 34 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.061 7.926 β”‚ β”‚ 35 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 36 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 37 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 38 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 39 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 40 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.927 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037252 Total Core solution elapsed time: 3.55621 Linear solver elapsed time: 3.01384 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 21/31, alpha value: 1e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-28 β”‚ β”‚ 2 β”‚ f(x)= 71712 β”‚ 0.000251 β”‚ 7.132e+04 397.2 β”‚ β”‚ 3 β”‚ f(x)= 1195.3 β”‚ 4.99e-06 β”‚ 1195 0.07421 β”‚ β”‚ 4 β”‚ f(x)= 2034.2 β”‚ 1.44e-05 β”‚ 1998 36.28 β”‚ β”‚ 5 β”‚ f(x)= 370.6 β”‚ 2.67e-06 β”‚ 366.8 3.796 β”‚ β”‚ 6 β”‚ f(x)= 313.11 β”‚ 3.94e-06 β”‚ 296.6 16.48 β”‚ β”‚ 7 β”‚ f(x)= 125.45 β”‚ 7.9e-07 β”‚ 117.9 7.531 β”‚ β”‚ 8 β”‚ f(x)= 102.68 β”‚ 6.55e-07 β”‚ 93.8 8.884 β”‚ β”‚ 9 β”‚ f(x)= 58.868 β”‚ 7.4e-07 β”‚ 44.27 14.59 β”‚ β”‚ 10 β”‚ f(x)= 42.858 β”‚ 3.92e-07 β”‚ 28.75 14.11 β”‚ β”‚ 11 β”‚ f(x)= 30.214 β”‚ 2.06e-07 β”‚ 15.55 14.66 β”‚ β”‚ 12 β”‚ f(x)= 27.069 β”‚ 2.27e-07 β”‚ 12.64 14.43 β”‚ β”‚ 13 β”‚ f(x)= 23.067 β”‚ 2.36e-07 β”‚ 8.939 14.13 β”‚ β”‚ 14 β”‚ f(x)= 22.643 β”‚ 1.56e-07 β”‚ 9.7 12.94 β”‚ β”‚ 15 β”‚ f(x)= 22.918 β”‚ 7.35e-08 β”‚ 10.63 12.29 β”‚ β”‚ 16 β”‚ f(x)= 22.676 β”‚ 1.41e-07 β”‚ 9.84 12.84 β”‚ β”‚ 17 β”‚ f(x)= 22.669 β”‚ 1.41e-07 β”‚ 9.832 12.84 β”‚ β”‚ 18 β”‚ f(x)= 22.668 β”‚ 1.42e-07 β”‚ 9.826 12.84 β”‚ β”‚ 19 β”‚ f(x)= 22.671 β”‚ 1.45e-07 β”‚ 9.804 12.87 β”‚ β”‚ 20 β”‚ f(x)= 22.668 β”‚ 1.48e-07 β”‚ 9.778 12.89 β”‚ β”‚ 21 β”‚ f(x)= 22.663 β”‚ 1.51e-07 β”‚ 9.757 12.91 β”‚ β”‚ 22 β”‚ f(x)= 22.663 β”‚ 1.52e-07 β”‚ 9.746 12.92 β”‚ β”‚ 23 β”‚ f(x)= 22.66 β”‚ 1.53e-07 β”‚ 9.736 12.92 β”‚ β”‚ 24 β”‚ f(x)= 22.657 β”‚ 1.54e-07 β”‚ 9.727 12.93 β”‚ β”‚ 25 β”‚ f(x)= 22.655 β”‚ 1.54e-07 β”‚ 9.721 12.93 β”‚ β”‚ 26 β”‚ f(x)= 22.653 β”‚ 1.55e-07 β”‚ 9.716 12.94 β”‚ β”‚ 27 β”‚ f(x)= 22.651 β”‚ 1.55e-07 β”‚ 9.713 12.94 β”‚ β”‚ 28 β”‚ f(x)= 22.65 β”‚ 1.55e-07 β”‚ 9.71 12.94 β”‚ β”‚ 29 β”‚ f(x)= 22.65 β”‚ 1.55e-07 β”‚ 9.709 12.94 β”‚ β”‚ 30 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.707 12.94 β”‚ β”‚ 31 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.707 12.94 β”‚ β”‚ 32 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.706 12.94 β”‚ β”‚ 33 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.706 12.94 β”‚ β”‚ 34 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 35 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 36 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 37 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 38 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 39 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 40 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037863 Total Core solution elapsed time: 3.4201 Linear solver elapsed time: 2.87566 (84%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 22/31, alpha value: 1.9953e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-28 β”‚ β”‚ 2 β”‚ f(x)= 72108 β”‚ 0.000253 β”‚ 7.132e+04 792.4 β”‚ β”‚ 3 β”‚ f(x)= 1195.9 β”‚ 4.97e-06 β”‚ 1196 0.1465 β”‚ β”‚ 4 β”‚ f(x)= 2249.2 β”‚ 1.52e-05 β”‚ 2170 78.89 β”‚ β”‚ 5 β”‚ f(x)= 455.91 β”‚ 3.14e-06 β”‚ 450.1 5.763 β”‚ β”‚ 6 β”‚ f(x)= 537.82 β”‚ 6.68e-06 β”‚ 467.6 70.18 β”‚ β”‚ 7 β”‚ f(x)= 174.46 β”‚ 1.51e-06 β”‚ 160.5 14 β”‚ β”‚ 8 β”‚ f(x)= 144.68 β”‚ 1.36e-06 β”‚ 130.8 13.91 β”‚ β”‚ 9 β”‚ f(x)= 115.64 β”‚ 8.91e-07 β”‚ 102.3 13.33 β”‚ β”‚ 10 β”‚ f(x)= 61.962 β”‚ 4.33e-07 β”‚ 39.9 22.06 β”‚ β”‚ 11 β”‚ f(x)= 53.493 β”‚ 9.28e-07 β”‚ 28.45 25.04 β”‚ β”‚ 12 β”‚ f(x)= 49.873 β”‚ 3.75e-07 β”‚ 28.32 21.56 β”‚ β”‚ 13 β”‚ f(x)= 46.699 β”‚ 2.3e-07 β”‚ 26.23 20.47 β”‚ β”‚ 14 β”‚ f(x)= 43.816 β”‚ 2.46e-07 β”‚ 24.24 19.57 β”‚ β”‚ 15 β”‚ f(x)= 40.609 β”‚ 1.99e-07 β”‚ 21.69 18.92 β”‚ β”‚ 16 β”‚ f(x)= 39.455 β”‚ 4.62e-07 β”‚ 20 19.45 β”‚ β”‚ 17 β”‚ f(x)= 38.82 β”‚ 8.48e-08 β”‚ 20.27 18.55 β”‚ β”‚ 18 β”‚ f(x)= 38.667 β”‚ 5.97e-08 β”‚ 20.08 18.58 β”‚ β”‚ 19 β”‚ f(x)= 38.202 β”‚ 5.57e-08 β”‚ 19.58 18.62 β”‚ β”‚ 20 β”‚ f(x)= 37.955 β”‚ 1.12e-07 β”‚ 19.18 18.77 β”‚ β”‚ 21 β”‚ f(x)= 37.924 β”‚ 2.27e-08 β”‚ 19.24 18.69 β”‚ β”‚ 22 β”‚ f(x)= 37.924 β”‚ 1.12e-08 β”‚ 19.25 18.67 β”‚ β”‚ 23 β”‚ f(x)= 37.924 β”‚ 1.93e-08 β”‚ 19.24 18.68 β”‚ β”‚ 24 β”‚ f(x)= 37.884 β”‚ 8.41e-09 β”‚ 19.18 18.7 β”‚ β”‚ 25 β”‚ f(x)= 37.89 β”‚ 6.51e-09 β”‚ 19.2 18.69 β”‚ β”‚ 26 β”‚ f(x)= 37.883 β”‚ 7.86e-09 β”‚ 19.18 18.7 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037014 Total Core solution elapsed time: 3.46859 Linear solver elapsed time: 2.95439 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 23/31, alpha value: 3.9811e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-28 β”‚ β”‚ 2 β”‚ f(x)= 72896 β”‚ 0.000256 β”‚ 7.132e+04 1581 β”‚ β”‚ 3 β”‚ f(x)= 1197 β”‚ 4.93e-06 β”‚ 1197 0.2863 β”‚ β”‚ 4 β”‚ f(x)= 1854.5 β”‚ 1.38e-05 β”‚ 1744 110.7 β”‚ β”‚ 5 β”‚ f(x)= 363.81 β”‚ 2.86e-06 β”‚ 350.1 13.7 β”‚ β”‚ 6 β”‚ f(x)= 554.86 β”‚ 9.89e-06 β”‚ 387.8 167 β”‚ β”‚ 7 β”‚ f(x)= 223.29 β”‚ 1.96e-06 β”‚ 207.5 15.8 β”‚ β”‚ 8 β”‚ f(x)= 189.12 β”‚ 1.58e-06 β”‚ 172.7 16.37 β”‚ β”‚ 9 β”‚ f(x)= 158.91 β”‚ 1.06e-06 β”‚ 144.4 14.47 β”‚ β”‚ 10 β”‚ f(x)= 100.33 β”‚ 8.39e-07 β”‚ 76.79 23.54 β”‚ β”‚ 11 β”‚ f(x)= 89.996 β”‚ 2.69e-06 β”‚ 43.01 46.99 β”‚ β”‚ 12 β”‚ f(x)= 81.884 β”‚ 5.22e-07 β”‚ 54.14 27.74 β”‚ β”‚ 13 β”‚ f(x)= 80.243 β”‚ 3.75e-07 β”‚ 53.47 26.78 β”‚ β”‚ 14 β”‚ f(x)= 74.268 β”‚ 3.9e-07 β”‚ 48.44 25.83 β”‚ β”‚ 15 β”‚ f(x)= 71.276 β”‚ 5e-07 β”‚ 45.88 25.4 β”‚ β”‚ 16 β”‚ f(x)= 67.8 β”‚ 2.32e-07 β”‚ 42.17 25.63 β”‚ β”‚ 17 β”‚ f(x)= 66.774 β”‚ 1.68e-07 β”‚ 41.44 25.34 β”‚ β”‚ 18 β”‚ f(x)= 65.473 β”‚ 1.77e-07 β”‚ 40.26 25.21 β”‚ β”‚ 19 β”‚ f(x)= 64.258 β”‚ 2.01e-07 β”‚ 38.77 25.49 β”‚ β”‚ 20 β”‚ f(x)= 63.946 β”‚ 7.84e-08 β”‚ 38.49 25.45 β”‚ β”‚ 21 β”‚ f(x)= 63.789 β”‚ 5.39e-08 β”‚ 38.34 25.45 β”‚ β”‚ 22 β”‚ f(x)= 63.627 β”‚ 4.51e-08 β”‚ 38.15 25.48 β”‚ β”‚ 23 β”‚ f(x)= 63.534 β”‚ 9.03e-08 β”‚ 38.06 25.48 β”‚ β”‚ 24 β”‚ f(x)= 63.523 β”‚ 1.4e-08 β”‚ 38.08 25.44 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037308 Total Core solution elapsed time: 3.32063 Linear solver elapsed time: 2.85739 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 24/31, alpha value: 7.9433e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-27 β”‚ β”‚ 2 β”‚ f(x)= 74470 β”‚ 0.000264 β”‚ 7.132e+04 3155 β”‚ β”‚ 3 β”‚ f(x)= 1199.2 β”‚ 4.87e-06 β”‚ 1199 0.5484 β”‚ β”‚ 4 β”‚ f(x)= 774.16 β”‚ 9.13e-06 β”‚ 660 114.1 β”‚ β”‚ 5 β”‚ f(x)= 335.5 β”‚ 8.34e-06 β”‚ 254.7 80.77 β”‚ β”‚ 6 β”‚ f(x)= 270.28 β”‚ 4.66e-06 β”‚ 239.5 30.82 β”‚ β”‚ 7 β”‚ f(x)= 206.2 β”‚ 1.18e-06 β”‚ 188.9 17.28 β”‚ β”‚ 8 β”‚ f(x)= 191.31 β”‚ 1.14e-06 β”‚ 173.2 18.06 β”‚ β”‚ 9 β”‚ f(x)= 160.85 β”‚ 1.43e-06 β”‚ 142.6 18.3 β”‚ β”‚ 10 β”‚ f(x)= 146.16 β”‚ 4.31e-06 β”‚ 99.12 47.04 β”‚ β”‚ 11 β”‚ f(x)= 123.96 β”‚ 7.27e-07 β”‚ 98.56 25.39 β”‚ β”‚ 12 β”‚ f(x)= 120.61 β”‚ 4.9e-07 β”‚ 95.68 24.94 β”‚ β”‚ 13 β”‚ f(x)= 114.64 β”‚ 5.39e-07 β”‚ 88.28 26.36 β”‚ β”‚ 14 β”‚ f(x)= 108.99 β”‚ 1.14e-06 β”‚ 79.71 29.28 β”‚ β”‚ 15 β”‚ f(x)= 106.18 β”‚ 4.61e-07 β”‚ 77.69 28.49 β”‚ β”‚ 16 β”‚ f(x)= 104.33 β”‚ 3.08e-07 β”‚ 75.91 28.42 β”‚ β”‚ 17 β”‚ f(x)= 102.8 β”‚ 2.8e-07 β”‚ 74.24 28.56 β”‚ β”‚ 18 β”‚ f(x)= 100.88 β”‚ 7.13e-07 β”‚ 71.33 29.54 β”‚ β”‚ 19 β”‚ f(x)= 100.39 β”‚ 1.43e-07 β”‚ 71.32 29.06 β”‚ β”‚ 20 β”‚ f(x)= 100.22 β”‚ 9.97e-08 β”‚ 71.18 29.04 β”‚ β”‚ 21 β”‚ f(x)= 99.68 β”‚ 1.09e-07 β”‚ 70.62 29.06 β”‚ β”‚ 22 β”‚ f(x)= 99.264 β”‚ 1.07e-07 β”‚ 70.31 28.95 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037691 Total Core solution elapsed time: 2.97082 Linear solver elapsed time: 2.55635 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 25/31, alpha value: 1.5849e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-27 β”‚ β”‚ 2 β”‚ f(x)= 77610 β”‚ 0.000284 β”‚ 7.132e+04 6294 β”‚ β”‚ 3 β”‚ f(x)= 1203.3 β”‚ 4.8e-06 β”‚ 1202 1.011 β”‚ β”‚ 4 β”‚ f(x)= 328.68 β”‚ 7.4e-06 β”‚ 219 109.7 β”‚ β”‚ 5 β”‚ f(x)= 455.44 β”‚ 2.08e-05 β”‚ 199.6 255.9 β”‚ β”‚ 6 β”‚ f(x)= 286.08 β”‚ 6.46e-06 β”‚ 212.1 74.02 β”‚ β”‚ 7 β”‚ f(x)= 277 β”‚ 2.54e-06 β”‚ 245.8 31.22 β”‚ β”‚ 8 β”‚ f(x)= 237.11 β”‚ 1.81e-06 β”‚ 210.7 26.39 β”‚ β”‚ 9 β”‚ f(x)= 193.38 β”‚ 2.74e-06 β”‚ 169.3 24.07 β”‚ β”‚ 10 β”‚ f(x)= 187.1 β”‚ 5.3e-06 β”‚ 148.9 38.24 β”‚ β”‚ 11 β”‚ f(x)= 174.07 β”‚ 1.18e-06 β”‚ 154.4 19.67 β”‚ β”‚ 12 β”‚ f(x)= 170.97 β”‚ 8.01e-07 β”‚ 152.1 18.82 β”‚ β”‚ 13 β”‚ f(x)= 163.81 β”‚ 8.7e-07 β”‚ 144.1 19.71 β”‚ β”‚ 14 β”‚ f(x)= 157.24 β”‚ 1.22e-06 β”‚ 135.7 21.52 β”‚ β”‚ 15 β”‚ f(x)= 148.14 β”‚ 7.94e-07 β”‚ 123.2 24.92 β”‚ β”‚ 16 β”‚ f(x)= 143.35 β”‚ 5.68e-07 β”‚ 117.6 25.77 β”‚ β”‚ 17 β”‚ f(x)= 140.07 β”‚ 1.07e-06 β”‚ 112.6 27.46 β”‚ β”‚ 18 β”‚ f(x)= 139.75 β”‚ 2.69e-07 β”‚ 113.4 26.3 β”‚ β”‚ 19 β”‚ f(x)= 139.78 β”‚ 1.65e-07 β”‚ 113.7 26.09 β”‚ β”‚ 20 β”‚ f(x)= 139.77 β”‚ 2.48e-07 β”‚ 113.5 26.26 β”‚ β”‚ 21 β”‚ f(x)= 139.76 β”‚ 2.49e-07 β”‚ 113.5 26.26 β”‚ β”‚ 22 β”‚ f(x)= 139.76 β”‚ 2.5e-07 β”‚ 113.5 26.26 β”‚ β”‚ 23 β”‚ f(x)= 139.76 β”‚ 2.54e-07 β”‚ 113.5 26.27 β”‚ β”‚ 24 β”‚ f(x)= 139.77 β”‚ 2.59e-07 β”‚ 113.5 26.28 β”‚ β”‚ 25 β”‚ f(x)= 139.76 β”‚ 2.62e-07 β”‚ 113.5 26.28 β”‚ β”‚ 26 β”‚ f(x)= 139.76 β”‚ 2.64e-07 β”‚ 113.5 26.29 β”‚ β”‚ 27 β”‚ f(x)= 139.76 β”‚ 2.66e-07 β”‚ 113.5 26.29 β”‚ β”‚ 28 β”‚ f(x)= 139.76 β”‚ 2.67e-07 β”‚ 113.5 26.29 β”‚ β”‚ 29 β”‚ f(x)= 139.76 β”‚ 2.68e-07 β”‚ 113.5 26.29 β”‚ β”‚ 30 β”‚ f(x)= 139.76 β”‚ 2.68e-07 β”‚ 113.5 26.29 β”‚ β”‚ 31 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 32 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 33 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 34 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 35 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 36 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 37 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 38 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 39 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 40 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037566 Total Core solution elapsed time: 3.2622 Linear solver elapsed time: 2.7512 (84%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 26/31, alpha value: 3.1623e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-27 β”‚ β”‚ 2 β”‚ f(x)= 83874 β”‚ 0.000334 β”‚ 7.132e+04 1.256e+04 β”‚ β”‚ 3 β”‚ f(x)= 1210.5 β”‚ 4.8e-06 β”‚ 1209 1.738 β”‚ β”‚ 4 β”‚ f(x)= 506.75 β”‚ 8.9e-06 β”‚ 419.4 87.32 β”‚ β”‚ 5 β”‚ f(x)= 446.42 β”‚ 2.49e-05 β”‚ 213.4 233 β”‚ β”‚ 6 β”‚ f(x)= 316.22 β”‚ 4.77e-06 β”‚ 254.4 61.87 β”‚ β”‚ 7 β”‚ f(x)= 299.43 β”‚ 3.25e-06 β”‚ 247.9 51.51 β”‚ β”‚ 8 β”‚ f(x)= 256.47 β”‚ 4.06e-06 β”‚ 217.7 38.8 β”‚ β”‚ 9 β”‚ f(x)= 228.37 β”‚ 3.74e-06 β”‚ 200.6 27.73 β”‚ β”‚ 10 β”‚ f(x)= 232.34 β”‚ 1.11e-05 β”‚ 178.1 54.26 β”‚ β”‚ 11 β”‚ f(x)= 214.17 β”‚ 5.78e-06 β”‚ 185.7 28.42 β”‚ β”‚ 12 β”‚ f(x)= 202.2 β”‚ 1.36e-06 β”‚ 182.1 20.1 β”‚ β”‚ 13 β”‚ f(x)= 200.37 β”‚ 1.11e-06 β”‚ 181.6 18.78 β”‚ β”‚ 14 β”‚ f(x)= 196.33 β”‚ 1.34e-06 β”‚ 178.7 17.63 β”‚ β”‚ 15 β”‚ f(x)= 190.45 β”‚ 2.51e-06 β”‚ 172.3 18.18 β”‚ β”‚ 16 β”‚ f(x)= 184.77 β”‚ 1.4e-06 β”‚ 167.3 17.49 β”‚ β”‚ 17 β”‚ f(x)= 178.36 β”‚ 9.27e-07 β”‚ 160.4 17.98 β”‚ β”‚ 18 β”‚ f(x)= 175.09 β”‚ 1.26e-06 β”‚ 156.2 18.94 β”‚ β”‚ 19 β”‚ f(x)= 173.88 β”‚ 4.34e-07 β”‚ 155 18.85 β”‚ β”‚ 20 β”‚ f(x)= 173.88 β”‚ 2.46e-07 β”‚ 155.3 18.57 β”‚ β”‚ 21 β”‚ f(x)= 173.87 β”‚ 3.74e-07 β”‚ 155.1 18.77 β”‚ β”‚ 22 β”‚ f(x)= 173.74 β”‚ 1.92e-07 β”‚ 155.3 18.43 β”‚ β”‚ 23 β”‚ f(x)= 173.49 β”‚ 1.73e-07 β”‚ 154.9 18.56 β”‚ β”‚ 24 β”‚ f(x)= 173.28 β”‚ 7.69e-08 β”‚ 154.6 18.63 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036804 Total Core solution elapsed time: 2.957 Linear solver elapsed time: 2.52696 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 27/31, alpha value: 6.3096e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-26 β”‚ β”‚ 2 β”‚ f(x)= 96374 β”‚ 0.000463 β”‚ 7.132e+04 2.506e+04 β”‚ β”‚ 3 β”‚ f(x)= 1220.7 β”‚ 5.17e-06 β”‚ 1218 2.747 β”‚ β”‚ 4 β”‚ f(x)= 803.79 β”‚ 1.05e-05 β”‚ 746.4 57.41 β”‚ β”‚ 5 β”‚ f(x)= 486.58 β”‚ 2.52e-05 β”‚ 311.5 175 β”‚ β”‚ 6 β”‚ f(x)= 404.52 β”‚ 7.55e-06 β”‚ 309.5 95.03 β”‚ β”‚ 7 β”‚ f(x)= 391.83 β”‚ 5.62e-06 β”‚ 320.6 71.25 β”‚ β”‚ 8 β”‚ f(x)= 334.87 β”‚ 6.84e-06 β”‚ 275.2 59.65 β”‚ β”‚ 9 β”‚ f(x)= 267.47 β”‚ 6.44e-06 β”‚ 228.2 39.3 β”‚ β”‚ 10 β”‚ f(x)= 292.34 β”‚ 2.26e-05 β”‚ 197.7 94.63 β”‚ β”‚ 11 β”‚ f(x)= 249.38 β”‚ 9.38e-06 β”‚ 210.2 39.18 β”‚ β”‚ 12 β”‚ f(x)= 230.49 β”‚ 2.77e-06 β”‚ 202.3 28.19 β”‚ β”‚ 13 β”‚ f(x)= 227.02 β”‚ 1.92e-06 β”‚ 202.1 24.94 β”‚ β”‚ 14 β”‚ f(x)= 223.02 β”‚ 2.08e-06 β”‚ 200.6 22.4 β”‚ β”‚ 15 β”‚ f(x)= 217.02 β”‚ 3.26e-06 β”‚ 198 19.04 β”‚ β”‚ 16 β”‚ f(x)= 209.3 β”‚ 2.61e-06 β”‚ 193.8 15.52 β”‚ β”‚ 17 β”‚ f(x)= 204 β”‚ 1.75e-06 β”‚ 191.3 12.74 β”‚ β”‚ 18 β”‚ f(x)= 200.27 β”‚ 2.3e-06 β”‚ 188.7 11.54 β”‚ β”‚ 19 β”‚ f(x)= 199.22 β”‚ 1.16e-06 β”‚ 188.3 10.88 β”‚ β”‚ 20 β”‚ f(x)= 199.04 β”‚ 4.76e-07 β”‚ 188.4 10.68 β”‚ β”‚ 21 β”‚ f(x)= 198.83 β”‚ 2.83e-07 β”‚ 188.2 10.66 β”‚ β”‚ 22 β”‚ f(x)= 198.42 β”‚ 2.33e-07 β”‚ 187.7 10.73 β”‚ β”‚ 23 β”‚ f(x)= 198.15 β”‚ 3.63e-07 β”‚ 187.3 10.88 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037375 Total Core solution elapsed time: 2.84641 Linear solver elapsed time: 2.42851 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 28/31, alpha value: 1.2589e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-26 β”‚ β”‚ 2 β”‚ f(x)=1.2131e+05 β”‚ 0.000758 β”‚ 7.132e+04 5e+04 β”‚ β”‚ 3 β”‚ f(x)= 1223.5 β”‚ 7.24e-06 β”‚ 1218 5.481 β”‚ β”‚ 4 β”‚ f(x)= 1022.5 β”‚ 1.16e-05 β”‚ 989.3 33.28 β”‚ β”‚ 5 β”‚ f(x)= 683.56 β”‚ 2.96e-05 β”‚ 536.1 147.5 β”‚ β”‚ 6 β”‚ f(x)= 577.58 β”‚ 1.1e-05 β”‚ 469.9 107.7 β”‚ β”‚ 7 β”‚ f(x)= 549.24 β”‚ 9.18e-06 β”‚ 463.2 86.04 β”‚ β”‚ 8 β”‚ f(x)= 458.84 β”‚ 1.14e-05 β”‚ 382.5 76.32 β”‚ β”‚ 9 β”‚ f(x)= 338.95 β”‚ 1.22e-05 β”‚ 275.2 63.75 β”‚ β”‚ 10 β”‚ f(x)= 353.31 β”‚ 3.76e-05 β”‚ 207.9 145.4 β”‚ β”‚ 11 β”‚ f(x)= 296.66 β”‚ 1.92e-05 β”‚ 226.2 70.47 β”‚ β”‚ 12 β”‚ f(x)= 264.73 β”‚ 5.2e-06 β”‚ 219.1 45.63 β”‚ β”‚ 13 β”‚ f(x)= 259.17 β”‚ 3.62e-06 β”‚ 219.4 39.79 β”‚ β”‚ 14 β”‚ f(x)= 252.24 β”‚ 3.87e-06 β”‚ 217.1 35.1 β”‚ β”‚ 15 β”‚ f(x)= 242.18 β”‚ 5.91e-06 β”‚ 214 28.19 β”‚ β”‚ 16 β”‚ f(x)= 230.92 β”‚ 5.22e-06 β”‚ 210.7 20.25 β”‚ β”‚ 17 β”‚ f(x)= 222.89 β”‚ 3.51e-06 β”‚ 209.5 13.35 β”‚ β”‚ 18 β”‚ f(x)= 216.54 β”‚ 4.2e-06 β”‚ 208.9 7.667 β”‚ β”‚ 19 β”‚ f(x)= 215.18 β”‚ 3.7e-06 β”‚ 208.4 6.772 β”‚ β”‚ 20 β”‚ f(x)= 214.25 β”‚ 1.05e-06 β”‚ 208.3 5.937 β”‚ β”‚ 21 β”‚ f(x)= 214.02 β”‚ 6.32e-07 β”‚ 208.2 5.769 β”‚ β”‚ 22 β”‚ f(x)= 213.56 β”‚ 5.64e-07 β”‚ 207.9 5.675 β”‚ β”‚ 23 β”‚ f(x)= 213.21 β”‚ 5.86e-07 β”‚ 207.5 5.733 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036969 Total Core solution elapsed time: 2.98078 Linear solver elapsed time: 2.54451 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 29/31, alpha value: 2.5119e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-26 β”‚ β”‚ 2 β”‚ f(x)=1.7108e+05 β”‚ 0.00139 β”‚ 7.132e+04 9.976e+04 β”‚ β”‚ 3 β”‚ f(x)= 1228.9 β”‚ 1.33e-05 β”‚ 1218 10.94 β”‚ β”‚ 4 β”‚ f(x)= 1151.7 β”‚ 1.21e-05 β”‚ 1134 17.99 β”‚ β”‚ 5 β”‚ f(x)= 889.9 β”‚ 1.67e-05 β”‚ 813.2 76.67 β”‚ β”‚ 6 β”‚ f(x)= 732.72 β”‚ 3.17e-05 β”‚ 597.5 135.2 β”‚ β”‚ 7 β”‚ f(x)= 723.66 β”‚ 1.49e-05 β”‚ 637.5 86.12 β”‚ β”‚ 8 β”‚ f(x)= 667.62 β”‚ 1.09e-05 β”‚ 600 67.66 β”‚ β”‚ 9 β”‚ f(x)= 538.85 β”‚ 1.7e-05 β”‚ 469.4 69.44 β”‚ β”‚ 10 β”‚ f(x)= 384.08 β”‚ 1.72e-05 β”‚ 314.4 69.7 β”‚ β”‚ 11 β”‚ f(x)= 436.76 β”‚ 6.77e-05 β”‚ 213.5 223.2 β”‚ β”‚ 12 β”‚ f(x)= 336.07 β”‚ 3.16e-05 β”‚ 241.6 94.42 β”‚ β”‚ 13 β”‚ f(x)= 300.11 β”‚ 7.93e-06 β”‚ 236.9 63.19 β”‚ β”‚ 14 β”‚ f(x)= 295.1 β”‚ 5.57e-06 β”‚ 238.9 56.17 β”‚ β”‚ 15 β”‚ f(x)= 284.12 β”‚ 7.87e-06 β”‚ 235.9 48.22 β”‚ β”‚ 16 β”‚ f(x)= 264.81 β”‚ 1.15e-05 β”‚ 228.6 36.18 β”‚ β”‚ 17 β”‚ f(x)= 246.59 β”‚ 1.85e-05 β”‚ 219.9 26.72 β”‚ β”‚ 18 β”‚ f(x)= 231.07 β”‚ 6.7e-06 β”‚ 219.5 11.56 β”‚ β”‚ 19 β”‚ f(x)= 225.58 β”‚ 3.84e-06 β”‚ 219.1 6.499 β”‚ β”‚ 20 β”‚ f(x)= 223.17 β”‚ 2.84e-06 β”‚ 218.8 4.384 β”‚ β”‚ 21 β”‚ f(x)= 222.47 β”‚ 4.84e-06 β”‚ 218.5 3.95 β”‚ β”‚ 22 β”‚ f(x)= 221.59 β”‚ 1.02e-06 β”‚ 218.4 3.145 β”‚ β”‚ 23 β”‚ f(x)= 221.47 β”‚ 6.48e-07 β”‚ 218.4 3.085 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.043542 Total Core solution elapsed time: 3.08321 Linear solver elapsed time: 2.60904 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 30/31, alpha value: 5.0119e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-26 β”‚ β”‚ 2 β”‚ f(x)=2.7036e+05 β”‚ 0.00266 β”‚ 7.132e+04 1.99e+05 β”‚ β”‚ 3 β”‚ f(x)= 1239.8 β”‚ 2.67e-05 β”‚ 1218 21.82 β”‚ β”‚ 4 β”‚ f(x)= 1221.8 β”‚ 1.25e-05 β”‚ 1212 9.37 β”‚ β”‚ 5 β”‚ f(x)= 1178 β”‚ 9.84e-06 β”‚ 1167 11.12 β”‚ β”‚ 6 β”‚ f(x)= 1095.7 β”‚ 1.57e-05 β”‚ 1069 26.73 β”‚ β”‚ 7 β”‚ f(x)= 964.08 β”‚ 2.33e-05 β”‚ 909.3 54.77 β”‚ β”‚ 8 β”‚ f(x)= 763.52 β”‚ 2.36e-05 β”‚ 658.8 104.8 β”‚ β”‚ 9 β”‚ f(x)= 633.85 β”‚ 1.83e-05 β”‚ 524.7 109.1 β”‚ β”‚ 10 β”‚ f(x)= 463.52 β”‚ 2.55e-05 β”‚ 353.7 109.8 β”‚ β”‚ 11 β”‚ f(x)= 416.05 β”‚ 2.96e-05 β”‚ 310.7 105.4 β”‚ β”‚ 12 β”‚ f(x)= 405.46 β”‚ 1.38e-05 β”‚ 322.3 83.13 β”‚ β”‚ 13 β”‚ f(x)= 387.64 β”‚ 1.11e-05 β”‚ 314.5 73.1 β”‚ β”‚ 14 β”‚ f(x)= 360.09 β”‚ 1.57e-05 β”‚ 291.3 68.81 β”‚ β”‚ 15 β”‚ f(x)= 309.28 β”‚ 2.15e-05 β”‚ 253.5 55.77 β”‚ β”‚ 16 β”‚ f(x)= 273.31 β”‚ 3.89e-05 β”‚ 223.8 49.52 β”‚ β”‚ 17 β”‚ f(x)= 243.49 β”‚ 1.36e-05 β”‚ 224.4 19.05 β”‚ β”‚ 18 β”‚ f(x)= 233.58 β”‚ 7.35e-06 β”‚ 225.2 8.414 β”‚ β”‚ 19 β”‚ f(x)= 229.03 β”‚ 5.67e-06 β”‚ 224.8 4.212 β”‚ β”‚ 20 β”‚ f(x)= 227.95 β”‚ 9.66e-06 β”‚ 224.7 3.283 β”‚ β”‚ 21 β”‚ f(x)= 226.31 β”‚ 2.19e-06 β”‚ 224.6 1.735 β”‚ β”‚ 22 β”‚ f(x)= 226.05 β”‚ 1.31e-06 β”‚ 224.5 1.583 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037071 Total Core solution elapsed time: 2.75956 Linear solver elapsed time: 2.35359 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 31/31, alpha value: 1e-11 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-25 β”‚ β”‚ 2 β”‚ f(x)=4.6847e+05 β”‚ 0.00522 β”‚ 7.132e+04 3.972e+05 β”‚ β”‚ 3 β”‚ f(x)= 1261.5 β”‚ 5.43e-05 β”‚ 1218 43.54 β”‚ β”‚ 4 β”‚ f(x)= 1256.5 β”‚ 1.26e-05 β”‚ 1252 4.789 β”‚ β”‚ 5 β”‚ f(x)= 1248.1 β”‚ 8.31e-06 β”‚ 1244 3.961 β”‚ β”‚ 6 β”‚ f(x)= 1180.1 β”‚ 1.62e-05 β”‚ 1165 15.5 β”‚ β”‚ 7 β”‚ f(x)= 1118.9 β”‚ 2.31e-05 β”‚ 1089 29.63 β”‚ β”‚ 8 β”‚ f(x)= 1022.4 β”‚ 2.22e-05 β”‚ 971.7 50.7 β”‚ β”‚ 9 β”‚ f(x)= 810.58 β”‚ 5.55e-05 β”‚ 690.7 119.9 β”‚ β”‚ 10 β”‚ f(x)= 699.58 β”‚ 2.22e-05 β”‚ 592.2 107.4 β”‚ β”‚ 11 β”‚ f(x)= 636.15 β”‚ 1.96e-05 β”‚ 543.5 92.63 β”‚ β”‚ 12 β”‚ f(x)= 566.63 β”‚ 2.29e-05 β”‚ 473.1 93.57 β”‚ β”‚ 13 β”‚ f(x)= 484.12 β”‚ 5.7e-05 β”‚ 356 128.1 β”‚ β”‚ 14 β”‚ f(x)= 459.3 β”‚ 2.05e-05 β”‚ 368.1 91.21 β”‚ β”‚ 15 β”‚ f(x)= 430.26 β”‚ 1.96e-05 β”‚ 353.5 76.79 β”‚ β”‚ 16 β”‚ f(x)= 352.38 β”‚ 3.2e-05 β”‚ 294.1 58.27 β”‚ β”‚ 17 β”‚ f(x)= 271.51 β”‚ 3.78e-05 β”‚ 240.9 30.61 β”‚ β”‚ 18 β”‚ f(x)= 319.35 β”‚ 9.28e-05 β”‚ 243.6 75.75 β”‚ β”‚ 19 β”‚ f(x)= 248.24 β”‚ 3.35e-05 β”‚ 229.5 18.74 β”‚ β”‚ 20 β”‚ f(x)= 233.89 β”‚ 1.12e-05 β”‚ 228.4 5.526 β”‚ β”‚ 21 β”‚ f(x)= 230.82 β”‚ 5.51e-06 β”‚ 228 2.773 β”‚ β”‚ 22 β”‚ f(x)= 229.56 β”‚ 5.42e-06 β”‚ 227.8 1.782 β”‚ β”‚ 23 β”‚ f(x)= 228.6 β”‚ 7.33e-06 β”‚ 227.4 1.24 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.041952 Total Core solution elapsed time: 2.94858 Linear solver elapsed time: 2.5295 (86%) Total elapsed time: 0 hrs 0 min 2 sec INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.779e-31 β”‚ β”‚ 2 β”‚ f(x)= 71317 β”‚ 0.000249 β”‚ 7.132e+04 1.589 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0003 β”‚ β”‚ 4 β”‚ f(x)= 2641.8 β”‚ 1.75e-05 β”‚ 2641 0.526 β”‚ β”‚ 5 β”‚ f(x)= 504.83 β”‚ 3.4e-06 β”‚ 504.8 0.03169 β”‚ β”‚ 6 β”‚ f(x)= 740.58 β”‚ 7.47e-06 β”‚ 740.2 0.4202 β”‚ β”‚ 7 β”‚ f(x)= 163.99 β”‚ 1.4e-06 β”‚ 163.9 0.1135 β”‚ β”‚ 8 β”‚ f(x)= 112.02 β”‚ 1.58e-06 β”‚ 111.8 0.2567 β”‚ β”‚ 9 β”‚ f(x)= 75.329 β”‚ 6.95e-07 β”‚ 75.1 0.2255 β”‚ β”‚ 10 β”‚ f(x)= 51.339 β”‚ 4.07e-07 β”‚ 51.09 0.249 β”‚ β”‚ 11 β”‚ f(x)= 26.737 β”‚ 2.73e-07 β”‚ 26.41 0.3316 β”‚ β”‚ 12 β”‚ f(x)= 15.506 β”‚ 1.64e-07 β”‚ 15.16 0.347 β”‚ β”‚ 13 β”‚ f(x)= 10.13 β”‚ 1.15e-07 β”‚ 9.793 0.3374 β”‚ β”‚ 14 β”‚ f(x)= 6.0393 β”‚ 9.7e-08 β”‚ 5.705 0.3343 β”‚ β”‚ 15 β”‚ f(x)= 2.7181 β”‚ 9.13e-08 β”‚ 2.372 0.3463 β”‚ β”‚ 16 β”‚ f(x)= 1.9229 β”‚ 3.89e-08 β”‚ 1.594 0.3294 β”‚ β”‚ 17 β”‚ f(x)= 1.548 β”‚ 3.95e-08 β”‚ 1.221 0.3274 β”‚ β”‚ 18 β”‚ f(x)= 1.0957 β”‚ 4.08e-08 β”‚ 0.7833 0.3124 β”‚ β”‚ 19 β”‚ f(x)= 0.72964 β”‚ 1.74e-08 β”‚ 0.4386 0.291 β”‚ β”‚ 20 β”‚ f(x)= 0.65174 β”‚ 1.27e-08 β”‚ 0.3776 0.2742 β”‚ β”‚ 21 β”‚ f(x)= 0.56945 β”‚ 1.37e-08 β”‚ 0.3102 0.2592 β”‚ β”‚ 22 β”‚ f(x)= 0.40776 β”‚ 1.27e-08 β”‚ 0.1807 0.227 β”‚ β”‚ 23 β”‚ f(x)= 0.35508 β”‚ 1.94e-08 β”‚ 0.1573 0.1977 β”‚ β”‚ 24 β”‚ f(x)= 0.28474 β”‚ 9.57e-09 β”‚ 0.09248 0.1923 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.03782 Total Core solution elapsed time: 3.90613 Linear solver elapsed time: 3.35679 (86%) Total elapsed time: 0 hrs 0 min 3 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-LcurveAnalysis +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag creating flow law paramter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031951 Total Core solution elapsed time: 0.217099 Linear solver elapsed time: 0.188342 (87%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.031989 Total Core solution elapsed time: 0.223673 Linear solver elapsed time: 0.196198 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster ------------------------------------------------------------ alpha iteration: 1/31, alpha value: 1e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.0003972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 7.5e-08 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 0.0001327 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 7.927e-06 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 0.0001068 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 2.844e-05 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 6.549e-05 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 5.715e-05 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 6.311e-05 β”‚ β”‚ 11 β”‚ f(x)= 26.462 β”‚ 2.72e-07 β”‚ 26.46 8.565e-05 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 9.124e-05 β”‚ β”‚ 13 β”‚ f(x)= 9.8226 β”‚ 1.14e-07 β”‚ 9.822 9.174e-05 β”‚ β”‚ 14 β”‚ f(x)= 5.8087 β”‚ 9.69e-08 β”‚ 5.809 9.448e-05 β”‚ β”‚ 15 β”‚ f(x)= 2.4896 β”‚ 9.36e-08 β”‚ 2.489 0.0001059 β”‚ β”‚ 16 β”‚ f(x)= 1.7088 β”‚ 3.9e-08 β”‚ 1.709 0.0001056 β”‚ β”‚ 17 β”‚ f(x)= 1.3549 β”‚ 3.96e-08 β”‚ 1.355 0.0001093 β”‚ β”‚ 18 β”‚ f(x)= 0.88103 β”‚ 4.29e-08 β”‚ 0.8809 0.0001114 β”‚ β”‚ 19 β”‚ f(x)= 0.47927 β”‚ 1.58e-08 β”‚ 0.4791 0.0001157 β”‚ β”‚ 20 β”‚ f(x)= 0.39808 β”‚ 1.12e-08 β”‚ 0.398 0.0001159 β”‚ β”‚ 21 β”‚ f(x)= 0.32628 β”‚ 1.1e-08 β”‚ 0.3262 0.0001175 β”‚ β”‚ 22 β”‚ f(x)= 0.20229 β”‚ 9.75e-09 β”‚ 0.2022 0.0001245 β”‚ β”‚ 23 β”‚ f(x)= 0.1927 β”‚ 2e-08 β”‚ 0.1926 0.000128 β”‚ β”‚ 24 β”‚ f(x)= 0.13094 β”‚ 9e-09 β”‚ 0.1308 0.0001282 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.038091 Total Core solution elapsed time: 3.84155 Linear solver elapsed time: 3.31054 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 2/31, alpha value: 1.9953e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.0007924 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.496e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.2 β”‚ 1.75e-05 β”‚ 2651 0.0002648 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 1.582e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.3 β”‚ 7.53e-06 β”‚ 749.3 0.0002131 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 5.675e-05 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0001307 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.000114 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 0.0001259 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.0001709 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 0.000182 β”‚ β”‚ 13 β”‚ f(x)= 9.8226 β”‚ 1.14e-07 β”‚ 9.822 0.000183 β”‚ β”‚ 14 β”‚ f(x)= 5.8088 β”‚ 9.69e-08 β”‚ 5.809 0.0001885 β”‚ β”‚ 15 β”‚ f(x)= 2.4897 β”‚ 9.36e-08 β”‚ 2.489 0.0002114 β”‚ β”‚ 16 β”‚ f(x)= 1.7088 β”‚ 3.9e-08 β”‚ 1.709 0.0002107 β”‚ β”‚ 17 β”‚ f(x)= 1.355 β”‚ 3.96e-08 β”‚ 1.355 0.000218 β”‚ β”‚ 18 β”‚ f(x)= 0.88111 β”‚ 4.29e-08 β”‚ 0.8809 0.0002223 β”‚ β”‚ 19 β”‚ f(x)= 0.47936 β”‚ 1.58e-08 β”‚ 0.4791 0.0002308 β”‚ β”‚ 20 β”‚ f(x)= 0.39819 β”‚ 1.12e-08 β”‚ 0.398 0.0002313 β”‚ β”‚ 21 β”‚ f(x)= 0.32639 β”‚ 1.1e-08 β”‚ 0.3262 0.0002344 β”‚ β”‚ 22 β”‚ f(x)= 0.2024 β”‚ 9.75e-09 β”‚ 0.2022 0.0002484 β”‚ β”‚ 23 β”‚ f(x)= 0.19282 β”‚ 2e-08 β”‚ 0.1926 0.0002552 β”‚ β”‚ 24 β”‚ f(x)= 0.13105 β”‚ 9e-09 β”‚ 0.1308 0.0002557 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037512 Total Core solution elapsed time: 3.87955 Linear solver elapsed time: 3.33825 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 3/31, alpha value: 3.9811e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-34 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.001581 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 2.986e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.0005284 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 3.156e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.29 β”‚ 7.53e-06 β”‚ 749.3 0.0004251 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 0.0001132 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0002607 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0002275 β”‚ β”‚ 10 β”‚ f(x)= 52.097 β”‚ 4.15e-07 β”‚ 52.1 0.0002512 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.000341 β”‚ β”‚ 12 β”‚ f(x)= 15.279 β”‚ 1.65e-07 β”‚ 15.28 0.0003632 β”‚ β”‚ 13 β”‚ f(x)= 9.8228 β”‚ 1.14e-07 β”‚ 9.822 0.0003652 β”‚ β”‚ 14 β”‚ f(x)= 5.809 β”‚ 9.69e-08 β”‚ 5.809 0.0003761 β”‚ β”‚ 15 β”‚ f(x)= 2.4898 β”‚ 9.36e-08 β”‚ 2.489 0.0004217 β”‚ β”‚ 16 β”‚ f(x)= 1.709 β”‚ 3.9e-08 β”‚ 1.709 0.0004203 β”‚ β”‚ 17 β”‚ f(x)= 1.3551 β”‚ 3.96e-08 β”‚ 1.355 0.0004349 β”‚ β”‚ 18 β”‚ f(x)= 0.88126 β”‚ 4.29e-08 β”‚ 0.8808 0.0004435 β”‚ β”‚ 19 β”‚ f(x)= 0.47955 β”‚ 1.58e-08 β”‚ 0.4791 0.0004603 β”‚ β”‚ 20 β”‚ f(x)= 0.39839 β”‚ 1.11e-08 β”‚ 0.3979 0.0004613 β”‚ β”‚ 21 β”‚ f(x)= 0.3266 β”‚ 1.1e-08 β”‚ 0.3261 0.0004675 β”‚ β”‚ 22 β”‚ f(x)= 0.20261 β”‚ 9.75e-09 β”‚ 0.2021 0.0004953 β”‚ β”‚ 23 β”‚ f(x)= 0.19306 β”‚ 2e-08 β”‚ 0.1926 0.0005089 β”‚ β”‚ 24 β”‚ f(x)= 0.13126 β”‚ 9e-09 β”‚ 0.1308 0.0005098 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037207 Total Core solution elapsed time: 3.89898 Linear solver elapsed time: 3.3583 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 4/31, alpha value: 7.9433e-20 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.003155 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 5.957e-07 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.001054 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 6.297e-05 β”‚ β”‚ 6 β”‚ f(x)= 749.29 β”‚ 7.53e-06 β”‚ 749.3 0.0008482 β”‚ β”‚ 7 β”‚ f(x)= 165.57 β”‚ 1.42e-06 β”‚ 165.6 0.0002259 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.0005202 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0004539 β”‚ β”‚ 10 β”‚ f(x)= 52.096 β”‚ 4.15e-07 β”‚ 52.1 0.0005013 β”‚ β”‚ 11 β”‚ f(x)= 26.463 β”‚ 2.72e-07 β”‚ 26.46 0.0006803 β”‚ β”‚ 12 β”‚ f(x)= 15.28 β”‚ 1.65e-07 β”‚ 15.28 0.0007247 β”‚ β”‚ 13 β”‚ f(x)= 9.8232 β”‚ 1.14e-07 β”‚ 9.822 0.0007286 β”‚ β”‚ 14 β”‚ f(x)= 5.8092 β”‚ 9.69e-08 β”‚ 5.808 0.0007503 β”‚ β”‚ 15 β”‚ f(x)= 2.4901 β”‚ 9.36e-08 β”‚ 2.489 0.0008413 β”‚ β”‚ 16 β”‚ f(x)= 1.7093 β”‚ 3.9e-08 β”‚ 1.708 0.0008383 β”‚ β”‚ 17 β”‚ f(x)= 1.3554 β”‚ 3.96e-08 β”‚ 1.355 0.0008676 β”‚ β”‚ 18 β”‚ f(x)= 0.88158 β”‚ 4.29e-08 β”‚ 0.8807 0.0008846 β”‚ β”‚ 19 β”‚ f(x)= 0.47993 β”‚ 1.58e-08 β”‚ 0.479 0.000918 β”‚ β”‚ 20 β”‚ f(x)= 0.3988 β”‚ 1.11e-08 β”‚ 0.3979 0.0009198 β”‚ β”‚ 21 β”‚ f(x)= 0.32703 β”‚ 1.1e-08 β”‚ 0.3261 0.0009321 β”‚ β”‚ 22 β”‚ f(x)= 0.20304 β”‚ 9.74e-09 β”‚ 0.202 0.0009873 β”‚ β”‚ 23 β”‚ f(x)= 0.19354 β”‚ 2e-08 β”‚ 0.1925 0.001014 β”‚ β”‚ 24 β”‚ f(x)= 0.1317 β”‚ 8.99e-09 β”‚ 0.1307 0.001016 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037144 Total Core solution elapsed time: 3.97347 Linear solver elapsed time: 3.42025 (86%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 5/31, alpha value: 1.5849e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.006294 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.189e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.002104 β”‚ β”‚ 5 β”‚ f(x)= 506.82 β”‚ 3.41e-06 β”‚ 506.8 0.0001256 β”‚ β”‚ 6 β”‚ f(x)= 749.27 β”‚ 7.53e-06 β”‚ 749.3 0.001692 β”‚ β”‚ 7 β”‚ f(x)= 165.56 β”‚ 1.42e-06 β”‚ 165.6 0.0004508 β”‚ β”‚ 8 β”‚ f(x)= 112.93 β”‚ 1.6e-06 β”‚ 112.9 0.001038 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.0009057 β”‚ β”‚ 10 β”‚ f(x)= 52.095 β”‚ 4.15e-07 β”‚ 52.09 0.001 β”‚ β”‚ 11 β”‚ f(x)= 26.464 β”‚ 2.72e-07 β”‚ 26.46 0.001357 β”‚ β”‚ 12 β”‚ f(x)= 15.28 β”‚ 1.65e-07 β”‚ 15.28 0.001446 β”‚ β”‚ 13 β”‚ f(x)= 9.8239 β”‚ 1.14e-07 β”‚ 9.822 0.001454 β”‚ β”‚ 14 β”‚ f(x)= 5.8098 β”‚ 9.69e-08 β”‚ 5.808 0.001497 β”‚ β”‚ 15 β”‚ f(x)= 2.4907 β”‚ 9.36e-08 β”‚ 2.489 0.001678 β”‚ β”‚ 16 β”‚ f(x)= 1.7099 β”‚ 3.9e-08 β”‚ 1.708 0.001672 β”‚ β”‚ 17 β”‚ f(x)= 1.356 β”‚ 3.96e-08 β”‚ 1.354 0.00173 β”‚ β”‚ 18 β”‚ f(x)= 0.88221 β”‚ 4.29e-08 β”‚ 0.8804 0.001764 β”‚ β”‚ 19 β”‚ f(x)= 0.48069 β”‚ 1.58e-08 β”‚ 0.4789 0.00183 β”‚ β”‚ 20 β”‚ f(x)= 0.39962 β”‚ 1.11e-08 β”‚ 0.3978 0.001833 β”‚ β”‚ 21 β”‚ f(x)= 0.32787 β”‚ 1.1e-08 β”‚ 0.326 0.001857 β”‚ β”‚ 22 β”‚ f(x)= 0.20388 β”‚ 9.74e-09 β”‚ 0.2019 0.001966 β”‚ β”‚ 23 β”‚ f(x)= 0.19449 β”‚ 2e-08 β”‚ 0.1925 0.002017 β”‚ β”‚ 24 β”‚ f(x)= 0.13256 β”‚ 8.99e-09 β”‚ 0.1305 0.00202 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036962 Total Core solution elapsed time: 3.76511 Linear solver elapsed time: 3.23906 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 6/31, alpha value: 3.1623e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-33 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.01256 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 2.372e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651.1 β”‚ 1.75e-05 β”‚ 2651 0.004197 β”‚ β”‚ 5 β”‚ f(x)= 506.81 β”‚ 3.41e-06 β”‚ 506.8 0.0002507 β”‚ β”‚ 6 β”‚ f(x)= 749.23 β”‚ 7.53e-06 β”‚ 749.2 0.003376 β”‚ β”‚ 7 β”‚ f(x)= 165.56 β”‚ 1.42e-06 β”‚ 165.6 0.0008995 β”‚ β”‚ 8 β”‚ f(x)= 112.92 β”‚ 1.6e-06 β”‚ 112.9 0.002071 β”‚ β”‚ 9 β”‚ f(x)= 75.259 β”‚ 6.92e-07 β”‚ 75.26 0.001807 β”‚ β”‚ 10 β”‚ f(x)= 52.092 β”‚ 4.15e-07 β”‚ 52.09 0.001995 β”‚ β”‚ 11 β”‚ f(x)= 26.465 β”‚ 2.72e-07 β”‚ 26.46 0.002708 β”‚ β”‚ 12 β”‚ f(x)= 15.281 β”‚ 1.65e-07 β”‚ 15.28 0.002884 β”‚ β”‚ 13 β”‚ f(x)= 9.8253 β”‚ 1.14e-07 β”‚ 9.822 0.002899 β”‚ β”‚ 14 β”‚ f(x)= 5.811 β”‚ 9.69e-08 β”‚ 5.808 0.002985 β”‚ β”‚ 15 β”‚ f(x)= 2.4918 β”‚ 9.36e-08 β”‚ 2.488 0.003345 β”‚ β”‚ 16 β”‚ f(x)= 1.711 β”‚ 3.9e-08 β”‚ 1.708 0.003332 β”‚ β”‚ 17 β”‚ f(x)= 1.3571 β”‚ 3.96e-08 β”‚ 1.354 0.003447 β”‚ β”‚ 18 β”‚ f(x)= 0.88346 β”‚ 4.29e-08 β”‚ 0.88 0.003513 β”‚ β”‚ 19 β”‚ f(x)= 0.48219 β”‚ 1.58e-08 β”‚ 0.4785 0.003643 β”‚ β”‚ 20 β”‚ f(x)= 0.40124 β”‚ 1.11e-08 β”‚ 0.3976 0.003648 β”‚ β”‚ 21 β”‚ f(x)= 0.32955 β”‚ 1.1e-08 β”‚ 0.3259 0.003694 β”‚ β”‚ 22 β”‚ f(x)= 0.20555 β”‚ 9.73e-09 β”‚ 0.2016 0.003905 β”‚ β”‚ 23 β”‚ f(x)= 0.19636 β”‚ 2.01e-08 β”‚ 0.1924 0.004 β”‚ β”‚ 24 β”‚ f(x)= 0.13426 β”‚ 8.97e-09 β”‚ 0.1303 0.004005 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037378 Total Core solution elapsed time: 3.8243 Linear solver elapsed time: 3.30324 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 7/31, alpha value: 6.3096e-19 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.02506 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 4.732e-06 β”‚ β”‚ 4 β”‚ f(x)= 2651 β”‚ 1.75e-05 β”‚ 2651 0.008374 β”‚ β”‚ 5 β”‚ f(x)= 506.79 β”‚ 3.41e-06 β”‚ 506.8 0.0005002 β”‚ β”‚ 6 β”‚ f(x)= 749.16 β”‚ 7.53e-06 β”‚ 749.2 0.006736 β”‚ β”‚ 7 β”‚ f(x)= 165.54 β”‚ 1.42e-06 β”‚ 165.5 0.001795 β”‚ β”‚ 8 β”‚ f(x)= 112.91 β”‚ 1.6e-06 β”‚ 112.9 0.004131 β”‚ β”‚ 9 β”‚ f(x)= 75.26 β”‚ 6.92e-07 β”‚ 75.26 0.003605 β”‚ β”‚ 10 β”‚ f(x)= 52.086 β”‚ 4.15e-07 β”‚ 52.08 0.003981 β”‚ β”‚ 11 β”‚ f(x)= 26.467 β”‚ 2.72e-07 β”‚ 26.46 0.005401 β”‚ β”‚ 12 β”‚ f(x)= 15.283 β”‚ 1.65e-07 β”‚ 15.28 0.005752 β”‚ β”‚ 13 β”‚ f(x)= 9.8281 β”‚ 1.14e-07 β”‚ 9.822 0.005781 β”‚ β”‚ 14 β”‚ f(x)= 5.8133 β”‚ 9.69e-08 β”‚ 5.807 0.00595 β”‚ β”‚ 15 β”‚ f(x)= 2.4941 β”‚ 9.36e-08 β”‚ 2.487 0.006662 β”‚ β”‚ 16 β”‚ f(x)= 1.7133 β”‚ 3.89e-08 β”‚ 1.707 0.006634 β”‚ β”‚ 17 β”‚ f(x)= 1.3593 β”‚ 3.96e-08 β”‚ 1.352 0.006861 β”‚ β”‚ 18 β”‚ f(x)= 0.88595 β”‚ 4.28e-08 β”‚ 0.879 0.006987 β”‚ β”‚ 19 β”‚ f(x)= 0.48517 β”‚ 1.58e-08 β”‚ 0.4779 0.007237 β”‚ β”‚ 20 β”‚ f(x)= 0.40445 β”‚ 1.11e-08 β”‚ 0.3972 0.007242 β”‚ β”‚ 21 β”‚ f(x)= 0.33288 β”‚ 1.1e-08 β”‚ 0.3255 0.007328 β”‚ β”‚ 22 β”‚ f(x)= 0.20884 β”‚ 9.71e-09 β”‚ 0.2011 0.007725 β”‚ β”‚ 23 β”‚ f(x)= 0.20004 β”‚ 2.02e-08 β”‚ 0.1922 0.007888 β”‚ β”‚ 24 β”‚ f(x)= 0.13758 β”‚ 8.95e-09 β”‚ 0.1297 0.007893 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037212 Total Core solution elapsed time: 3.80685 Linear solver elapsed time: 3.27022 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 8/31, alpha value: 1.2589e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.05 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 9.441e-06 β”‚ β”‚ 4 β”‚ f(x)= 2650.9 β”‚ 1.75e-05 β”‚ 2651 0.01671 β”‚ β”‚ 5 β”‚ f(x)= 506.76 β”‚ 3.41e-06 β”‚ 506.8 0.000998 β”‚ β”‚ 6 β”‚ f(x)= 749.03 β”‚ 7.53e-06 β”‚ 749 0.01344 β”‚ β”‚ 7 β”‚ f(x)= 165.52 β”‚ 1.42e-06 β”‚ 165.5 0.003581 β”‚ β”‚ 8 β”‚ f(x)= 112.9 β”‚ 1.6e-06 β”‚ 112.9 0.008239 β”‚ β”‚ 9 β”‚ f(x)= 75.261 β”‚ 6.92e-07 β”‚ 75.25 0.007192 β”‚ β”‚ 10 β”‚ f(x)= 52.075 β”‚ 4.15e-07 β”‚ 52.07 0.007942 β”‚ β”‚ 11 β”‚ f(x)= 26.472 β”‚ 2.72e-07 β”‚ 26.46 0.01077 β”‚ β”‚ 12 β”‚ f(x)= 15.287 β”‚ 1.65e-07 β”‚ 15.28 0.01147 β”‚ β”‚ 13 β”‚ f(x)= 9.8336 β”‚ 1.14e-07 β”‚ 9.822 0.01152 β”‚ β”‚ 14 β”‚ f(x)= 5.8178 β”‚ 9.69e-08 β”‚ 5.806 0.01185 β”‚ β”‚ 15 β”‚ f(x)= 2.4987 β”‚ 9.35e-08 β”‚ 2.485 0.01325 β”‚ β”‚ 16 β”‚ f(x)= 1.7179 β”‚ 3.89e-08 β”‚ 1.705 0.01318 β”‚ β”‚ 17 β”‚ f(x)= 1.3636 β”‚ 3.95e-08 β”‚ 1.35 0.01362 β”‚ β”‚ 18 β”‚ f(x)= 0.89087 β”‚ 4.28e-08 β”‚ 0.877 0.01385 β”‚ β”‚ 19 β”‚ f(x)= 0.49105 β”‚ 1.58e-08 β”‚ 0.4767 0.01432 β”‚ β”‚ 20 β”‚ f(x)= 0.41077 β”‚ 1.11e-08 β”‚ 0.3965 0.01431 β”‚ β”‚ 21 β”‚ f(x)= 0.3394 β”‚ 1.1e-08 β”‚ 0.3249 0.01445 β”‚ β”‚ 22 β”‚ f(x)= 0.21524 β”‚ 9.68e-09 β”‚ 0.2001 0.01515 β”‚ β”‚ 23 β”‚ f(x)= 0.20712 β”‚ 2.03e-08 β”‚ 0.1917 0.01538 β”‚ β”‚ 24 β”‚ f(x)= 0.14393 β”‚ 8.92e-09 β”‚ 0.1286 0.01537 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036833 Total Core solution elapsed time: 3.82487 Linear solver elapsed time: 3.28433 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 9/31, alpha value: 2.5119e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.09976 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 1.884e-05 β”‚ β”‚ 4 β”‚ f(x)= 2650.6 β”‚ 1.75e-05 β”‚ 2651 0.03332 β”‚ β”‚ 5 β”‚ f(x)= 506.7 β”‚ 3.4e-06 β”‚ 506.7 0.001991 β”‚ β”‚ 6 β”‚ f(x)= 748.75 β”‚ 7.53e-06 β”‚ 748.7 0.0268 β”‚ β”‚ 7 β”‚ f(x)= 165.47 β”‚ 1.42e-06 β”‚ 165.5 0.007144 β”‚ β”‚ 8 β”‚ f(x)= 112.87 β”‚ 1.6e-06 β”‚ 112.9 0.01643 β”‚ β”‚ 9 β”‚ f(x)= 75.263 β”‚ 6.92e-07 β”‚ 75.25 0.01434 β”‚ β”‚ 10 β”‚ f(x)= 52.052 β”‚ 4.15e-07 β”‚ 52.04 0.01584 β”‚ β”‚ 11 β”‚ f(x)= 26.482 β”‚ 2.72e-07 β”‚ 26.46 0.02147 β”‚ β”‚ 12 β”‚ f(x)= 15.295 β”‚ 1.65e-07 β”‚ 15.27 0.02285 β”‚ β”‚ 13 β”‚ f(x)= 9.8446 β”‚ 1.14e-07 β”‚ 9.822 0.02292 β”‚ β”‚ 14 β”‚ f(x)= 5.8268 β”‚ 9.69e-08 β”‚ 5.803 0.02354 β”‚ β”‚ 15 β”‚ f(x)= 2.5076 β”‚ 9.34e-08 β”‚ 2.481 0.02626 β”‚ β”‚ 16 β”‚ f(x)= 1.7268 β”‚ 3.89e-08 β”‚ 1.701 0.02608 β”‚ β”‚ 17 β”‚ f(x)= 1.3721 β”‚ 3.95e-08 β”‚ 1.345 0.02691 β”‚ β”‚ 18 β”‚ f(x)= 0.90047 β”‚ 4.27e-08 β”‚ 0.8732 0.0273 β”‚ β”‚ 19 β”‚ f(x)= 0.50251 β”‚ 1.57e-08 β”‚ 0.4744 0.02808 β”‚ β”‚ 20 β”‚ f(x)= 0.42306 β”‚ 1.11e-08 β”‚ 0.3951 0.02799 β”‚ β”‚ 21 β”‚ f(x)= 0.35201 β”‚ 1.1e-08 β”‚ 0.3238 0.02819 β”‚ β”‚ 22 β”‚ f(x)= 0.22742 β”‚ 9.65e-09 β”‚ 0.1982 0.02924 β”‚ β”‚ 23 β”‚ f(x)= 0.22033 β”‚ 2.06e-08 β”‚ 0.191 0.02932 β”‚ β”‚ 24 β”‚ f(x)= 0.15559 β”‚ 8.91e-09 β”‚ 0.1263 0.02925 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.041364 Total Core solution elapsed time: 3.78294 Linear solver elapsed time: 3.26257 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 10/31, alpha value: 5.0119e-18 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-32 β”‚ β”‚ 2 β”‚ f(x)= 71315 β”‚ 0.000249 β”‚ 7.132e+04 0.199 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 3.759e-05 β”‚ β”‚ 4 β”‚ f(x)= 2650 β”‚ 1.75e-05 β”‚ 2650 0.06645 β”‚ β”‚ 5 β”‚ f(x)= 506.57 β”‚ 3.4e-06 β”‚ 506.6 0.003973 β”‚ β”‚ 6 β”‚ f(x)= 748.2 β”‚ 7.53e-06 β”‚ 748.1 0.05341 β”‚ β”‚ 7 β”‚ f(x)= 165.37 β”‚ 1.42e-06 β”‚ 165.4 0.01425 β”‚ β”‚ 8 β”‚ f(x)= 112.81 β”‚ 1.6e-06 β”‚ 112.8 0.03274 β”‚ β”‚ 9 β”‚ f(x)= 75.268 β”‚ 6.92e-07 β”‚ 75.24 0.02859 β”‚ β”‚ 10 β”‚ f(x)= 52.006 β”‚ 4.14e-07 β”‚ 51.97 0.03157 β”‚ β”‚ 11 β”‚ f(x)= 26.501 β”‚ 2.72e-07 β”‚ 26.46 0.04275 β”‚ β”‚ 12 β”‚ f(x)= 15.31 β”‚ 1.65e-07 β”‚ 15.26 0.04544 β”‚ β”‚ 13 β”‚ f(x)= 9.8662 β”‚ 1.14e-07 β”‚ 9.821 0.04549 β”‚ β”‚ 14 β”‚ f(x)= 5.8443 β”‚ 9.69e-08 β”‚ 5.798 0.04661 β”‚ β”‚ 15 β”‚ f(x)= 2.525 β”‚ 9.33e-08 β”‚ 2.473 0.05169 β”‚ β”‚ 16 β”‚ f(x)= 1.7441 β”‚ 3.89e-08 β”‚ 1.693 0.05117 β”‚ β”‚ 17 β”‚ f(x)= 1.3885 β”‚ 3.94e-08 β”‚ 1.336 0.05264 β”‚ β”‚ 18 β”‚ f(x)= 0.91888 β”‚ 4.25e-08 β”‚ 0.8657 0.05313 β”‚ β”‚ 19 β”‚ f(x)= 0.52432 β”‚ 1.57e-08 β”‚ 0.4701 0.05419 β”‚ β”‚ 20 β”‚ f(x)= 0.44626 β”‚ 1.11e-08 β”‚ 0.3925 0.05373 β”‚ β”‚ 21 β”‚ f(x)= 0.37552 β”‚ 1.1e-08 β”‚ 0.3217 0.0538 β”‚ β”‚ 22 β”‚ f(x)= 0.24904 β”‚ 9.7e-09 β”‚ 0.1943 0.0547 β”‚ β”‚ 23 β”‚ f(x)= 0.24513 β”‚ 2.14e-08 β”‚ 0.1915 0.05361 β”‚ β”‚ 24 β”‚ f(x)= 0.17588 β”‚ 9.03e-09 β”‚ 0.1225 0.05334 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036956 Total Core solution elapsed time: 3.85846 Linear solver elapsed time: 3.32319 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 11/31, alpha value: 1e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-31 β”‚ β”‚ 2 β”‚ f(x)= 71316 β”‚ 0.000249 β”‚ 7.132e+04 0.3972 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 7.5e-05 β”‚ β”‚ 4 β”‚ f(x)= 2648.8 β”‚ 1.75e-05 β”‚ 2649 0.1324 β”‚ β”‚ 5 β”‚ f(x)= 506.33 β”‚ 3.4e-06 β”‚ 506.3 0.007926 β”‚ β”‚ 6 β”‚ f(x)= 747.1 β”‚ 7.52e-06 β”‚ 747 0.1063 β”‚ β”‚ 7 β”‚ f(x)= 165.17 β”‚ 1.41e-06 β”‚ 165.1 0.02843 β”‚ β”‚ 8 β”‚ f(x)= 112.7 β”‚ 1.6e-06 β”‚ 112.6 0.06515 β”‚ β”‚ 9 β”‚ f(x)= 75.277 β”‚ 6.93e-07 β”‚ 75.22 0.05695 β”‚ β”‚ 10 β”‚ f(x)= 51.914 β”‚ 4.13e-07 β”‚ 51.85 0.06289 β”‚ β”‚ 11 β”‚ f(x)= 26.538 β”‚ 2.72e-07 β”‚ 26.45 0.08494 β”‚ β”‚ 12 β”‚ f(x)= 15.34 β”‚ 1.65e-07 β”‚ 15.25 0.09009 β”‚ β”‚ 13 β”‚ f(x)= 9.9083 β”‚ 1.14e-07 β”‚ 9.818 0.08979 β”‚ β”‚ 14 β”‚ f(x)= 5.8778 β”‚ 9.68e-08 β”‚ 5.786 0.09155 β”‚ β”‚ 15 β”‚ f(x)= 2.5582 β”‚ 9.29e-08 β”‚ 2.458 0.1005 β”‚ β”‚ 16 β”‚ f(x)= 1.7765 β”‚ 3.88e-08 β”‚ 1.678 0.09881 β”‚ β”‚ 17 β”‚ f(x)= 1.4188 β”‚ 3.94e-08 β”‚ 1.318 0.1011 β”‚ β”‚ 18 β”‚ f(x)= 0.95274 β”‚ 4.21e-08 β”‚ 0.8517 0.101 β”‚ β”‚ 19 β”‚ f(x)= 0.56408 β”‚ 1.58e-08 β”‚ 0.4627 0.1014 β”‚ β”‚ 20 β”‚ f(x)= 0.488 β”‚ 1.12e-08 β”‚ 0.3884 0.09956 β”‚ β”‚ 21 β”‚ f(x)= 0.41705 β”‚ 1.12e-08 β”‚ 0.3184 0.09862 β”‚ β”‚ 22 β”‚ f(x)= 0.28568 β”‚ 1e-08 β”‚ 0.189 0.09667 β”‚ β”‚ 23 β”‚ f(x)= 0.28121 β”‚ 2.25e-08 β”‚ 0.1903 0.09089 β”‚ β”‚ 24 β”‚ f(x)= 0.20437 β”‚ 9.54e-09 β”‚ 0.1145 0.08988 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037959 Total Core solution elapsed time: 3.79093 Linear solver elapsed time: 3.26833 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 12/31, alpha value: 1.9953e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-31 β”‚ β”‚ 2 β”‚ f(x)= 71316 β”‚ 0.000249 β”‚ 7.132e+04 0.7924 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0001496 β”‚ β”‚ 4 β”‚ f(x)= 2646.5 β”‚ 1.75e-05 β”‚ 2646 0.2636 β”‚ β”‚ 5 β”‚ f(x)= 505.83 β”‚ 3.4e-06 β”‚ 505.8 0.01581 β”‚ β”‚ 6 β”‚ f(x)= 744.93 β”‚ 7.5e-06 β”‚ 744.7 0.2113 β”‚ β”‚ 7 β”‚ f(x)= 164.78 β”‚ 1.41e-06 β”‚ 164.7 0.05669 β”‚ β”‚ 8 β”‚ f(x)= 112.47 β”‚ 1.59e-06 β”‚ 112.3 0.1293 β”‚ β”‚ 9 β”‚ f(x)= 75.295 β”‚ 6.93e-07 β”‚ 75.18 0.1133 β”‚ β”‚ 10 β”‚ f(x)= 51.727 β”‚ 4.11e-07 β”‚ 51.6 0.125 β”‚ β”‚ 11 β”‚ f(x)= 26.608 β”‚ 2.72e-07 β”‚ 26.44 0.1681 β”‚ β”‚ 12 β”‚ f(x)= 15.398 β”‚ 1.64e-07 β”‚ 15.22 0.1775 β”‚ β”‚ 13 β”‚ f(x)= 9.9877 β”‚ 1.14e-07 β”‚ 9.812 0.1754 β”‚ β”‚ 14 β”‚ f(x)= 5.9387 β”‚ 9.68e-08 β”‚ 5.762 0.1771 β”‚ β”‚ 15 β”‚ f(x)= 2.6183 β”‚ 9.23e-08 β”‚ 2.428 0.1904 β”‚ β”‚ 16 β”‚ f(x)= 1.8337 β”‚ 3.87e-08 β”‚ 1.649 0.1851 β”‚ β”‚ 17 β”‚ f(x)= 1.4709 β”‚ 3.93e-08 β”‚ 1.284 0.1873 β”‚ β”‚ 18 β”‚ f(x)= 1.0103 β”‚ 4.16e-08 β”‚ 0.8264 0.184 β”‚ β”‚ 19 β”‚ f(x)= 0.63073 β”‚ 1.61e-08 β”‚ 0.4515 0.1793 β”‚ β”‚ 20 β”‚ f(x)= 0.55607 β”‚ 1.16e-08 β”‚ 0.3829 0.1732 β”‚ β”‚ 21 β”‚ f(x)= 0.48233 β”‚ 1.2e-08 β”‚ 0.314 0.1683 β”‚ β”‚ 22 β”‚ f(x)= 0.3383 β”‚ 1.1e-08 β”‚ 0.1828 0.1555 β”‚ β”‚ 23 β”‚ f(x)= 0.32401 β”‚ 2.36e-08 β”‚ 0.1865 0.1375 β”‚ β”‚ 24 β”‚ f(x)= 0.23509 β”‚ 1.04e-08 β”‚ 0.1012 0.1339 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.03681 Total Core solution elapsed time: 4.06745 Linear solver elapsed time: 3.49467 (86%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 13/31, alpha value: 3.9811e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-31 β”‚ β”‚ 2 β”‚ f(x)= 71317 β”‚ 0.000249 β”‚ 7.132e+04 1.581 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0002986 β”‚ β”‚ 4 β”‚ f(x)= 2641.8 β”‚ 1.75e-05 β”‚ 2641 0.5236 β”‚ β”‚ 5 β”‚ f(x)= 504.84 β”‚ 3.4e-06 β”‚ 504.8 0.03154 β”‚ β”‚ 6 β”‚ f(x)= 740.62 β”‚ 7.47e-06 β”‚ 740.2 0.4182 β”‚ β”‚ 7 β”‚ f(x)= 164 β”‚ 1.4e-06 β”‚ 163.9 0.113 β”‚ β”‚ 8 β”‚ f(x)= 112.02 β”‚ 1.58e-06 β”‚ 111.8 0.2555 β”‚ β”‚ 9 β”‚ f(x)= 75.329 β”‚ 6.95e-07 β”‚ 75.1 0.2244 β”‚ β”‚ 10 β”‚ f(x)= 51.343 β”‚ 4.07e-07 β”‚ 51.1 0.2478 β”‚ β”‚ 11 β”‚ f(x)= 26.736 β”‚ 2.73e-07 β”‚ 26.41 0.33 β”‚ β”‚ 12 β”‚ f(x)= 15.505 β”‚ 1.64e-07 β”‚ 15.16 0.3454 β”‚ β”‚ 13 β”‚ f(x)= 10.129 β”‚ 1.15e-07 β”‚ 9.793 0.3359 β”‚ β”‚ 14 β”‚ f(x)= 6.0385 β”‚ 9.7e-08 β”‚ 5.706 0.3329 β”‚ β”‚ 15 β”‚ f(x)= 2.7172 β”‚ 9.13e-08 β”‚ 2.372 0.345 β”‚ β”‚ 16 β”‚ f(x)= 1.9222 β”‚ 3.89e-08 β”‚ 1.594 0.3282 β”‚ β”‚ 17 β”‚ f(x)= 1.5474 β”‚ 3.95e-08 β”‚ 1.221 0.3262 β”‚ β”‚ 18 β”‚ f(x)= 1.095 β”‚ 4.08e-08 β”‚ 0.7836 0.3114 β”‚ β”‚ 19 β”‚ f(x)= 0.72886 β”‚ 1.74e-08 β”‚ 0.4387 0.2902 β”‚ β”‚ 20 β”‚ f(x)= 0.65102 β”‚ 1.27e-08 β”‚ 0.3776 0.2734 β”‚ β”‚ 21 β”‚ f(x)= 0.5688 β”‚ 1.37e-08 β”‚ 0.3102 0.2586 β”‚ β”‚ 22 β”‚ f(x)= 0.40718 β”‚ 1.27e-08 β”‚ 0.1807 0.2265 β”‚ β”‚ 23 β”‚ f(x)= 0.35477 β”‚ 1.95e-08 β”‚ 0.1576 0.1972 β”‚ β”‚ 24 β”‚ f(x)= 0.28407 β”‚ 9.59e-09 β”‚ 0.09237 0.1917 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037183 Total Core solution elapsed time: 3.84354 Linear solver elapsed time: 3.30409 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 14/31, alpha value: 7.9433e-17 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-30 β”‚ β”‚ 2 β”‚ f(x)= 71318 β”‚ 0.000249 β”‚ 7.132e+04 3.155 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0005957 β”‚ β”‚ 4 β”‚ f(x)= 2632.6 β”‚ 1.75e-05 β”‚ 2632 1.035 β”‚ β”‚ 5 β”‚ f(x)= 502.88 β”‚ 3.39e-06 β”‚ 502.8 0.06289 β”‚ β”‚ 6 β”‚ f(x)= 732.15 β”‚ 7.42e-06 β”‚ 731.3 0.8211 β”‚ β”‚ 7 β”‚ f(x)= 162.48 β”‚ 1.38e-06 β”‚ 162.3 0.2249 β”‚ β”‚ 8 β”‚ f(x)= 111.16 β”‚ 1.55e-06 β”‚ 110.7 0.4996 β”‚ β”‚ 9 β”‚ f(x)= 75.39 β”‚ 6.99e-07 β”‚ 74.95 0.4418 β”‚ β”‚ 10 β”‚ f(x)= 50.528 β”‚ 4e-07 β”‚ 50.04 0.488 β”‚ β”‚ 11 β”‚ f(x)= 26.939 β”‚ 2.73e-07 β”‚ 26.3 0.6385 β”‚ β”‚ 12 β”‚ f(x)= 15.686 β”‚ 1.64e-07 β”‚ 15.03 0.6564 β”‚ β”‚ 13 β”‚ f(x)= 10.347 β”‚ 1.15e-07 β”‚ 9.727 0.6193 β”‚ β”‚ 14 β”‚ f(x)= 6.1591 β”‚ 9.76e-08 β”‚ 5.566 0.593 β”‚ β”‚ 15 β”‚ f(x)= 2.8498 β”‚ 8.9e-08 β”‚ 2.27 0.5799 β”‚ β”‚ 16 β”‚ f(x)= 2.0279 β”‚ 3.93e-08 β”‚ 1.493 0.5346 β”‚ β”‚ 17 β”‚ f(x)= 1.6307 β”‚ 3.96e-08 β”‚ 1.112 0.519 β”‚ β”‚ 18 β”‚ f(x)= 1.1982 β”‚ 3.85e-08 β”‚ 0.7189 0.4792 β”‚ β”‚ 19 β”‚ f(x)= 0.86622 β”‚ 2.08e-08 β”‚ 0.4383 0.4279 β”‚ β”‚ 20 β”‚ f(x)= 0.77055 β”‚ 1.41e-08 β”‚ 0.3755 0.3951 β”‚ β”‚ 21 β”‚ f(x)= 0.6789 β”‚ 1.52e-08 β”‚ 0.3095 0.3694 β”‚ β”‚ 22 β”‚ f(x)= 0.53209 β”‚ 1.29e-08 β”‚ 0.1964 0.3357 β”‚ β”‚ 23 β”‚ f(x)= 0.48606 β”‚ 1.48e-08 β”‚ 0.1726 0.3134 β”‚ β”‚ 24 β”‚ f(x)= 0.45428 β”‚ 7.4e-09 β”‚ 0.1458 0.3085 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.042461 Total Core solution elapsed time: 4.29412 Linear solver elapsed time: 3.65996 (85%) Total elapsed time: 0 hrs 0 min 4 sec ------------------------------------------------------------ alpha iteration: 15/31, alpha value: 1.5849e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-30 β”‚ β”‚ 2 β”‚ f(x)= 71321 β”‚ 0.000249 β”‚ 7.132e+04 6.294 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.001188 β”‚ β”‚ 4 β”‚ f(x)= 2614.6 β”‚ 1.74e-05 β”‚ 2613 2.027 β”‚ β”‚ 5 β”‚ f(x)= 498.99 β”‚ 3.37e-06 β”‚ 498.9 0.1253 β”‚ β”‚ 6 β”‚ f(x)= 715.74 β”‚ 7.3e-06 β”‚ 714.2 1.586 β”‚ β”‚ 7 β”‚ f(x)= 159.59 β”‚ 1.34e-06 β”‚ 159.1 0.4465 β”‚ β”‚ 8 β”‚ f(x)= 109.6 β”‚ 1.51e-06 β”‚ 108.6 0.9585 β”‚ β”‚ 9 β”‚ f(x)= 75.481 β”‚ 7.07e-07 β”‚ 74.62 0.8584 β”‚ β”‚ 10 β”‚ f(x)= 48.7 β”‚ 3.84e-07 β”‚ 47.75 0.9505 β”‚ β”‚ 11 β”‚ f(x)= 27.145 β”‚ 2.73e-07 β”‚ 25.94 1.202 β”‚ β”‚ 12 β”‚ f(x)= 15.936 β”‚ 1.64e-07 β”‚ 14.74 1.191 β”‚ β”‚ 13 β”‚ f(x)= 10.553 β”‚ 1.17e-07 β”‚ 9.487 1.066 β”‚ β”‚ 14 β”‚ f(x)= 6.1427 β”‚ 9.86e-08 β”‚ 5.177 0.9655 β”‚ β”‚ 15 β”‚ f(x)= 2.9664 β”‚ 8.05e-08 β”‚ 2.076 0.8903 β”‚ β”‚ 16 β”‚ f(x)= 2.1124 β”‚ 3.89e-08 β”‚ 1.309 0.8031 β”‚ β”‚ 17 β”‚ f(x)= 1.701 β”‚ 3.68e-08 β”‚ 0.9295 0.7715 β”‚ β”‚ 18 β”‚ f(x)= 1.3505 β”‚ 3.01e-08 β”‚ 0.6506 0.6999 β”‚ β”‚ 19 β”‚ f(x)= 1.1135 β”‚ 2.42e-08 β”‚ 0.4919 0.6217 β”‚ β”‚ 20 β”‚ f(x)= 0.98023 β”‚ 1.54e-08 β”‚ 0.4035 0.5768 β”‚ β”‚ 21 β”‚ f(x)= 0.89005 β”‚ 1.36e-08 β”‚ 0.3359 0.5542 β”‚ β”‚ 22 β”‚ f(x)= 0.80506 β”‚ 1e-08 β”‚ 0.2687 0.5364 β”‚ β”‚ 23 β”‚ f(x)= 0.77753 β”‚ 9.51e-09 β”‚ 0.254 0.5236 β”‚ β”‚ 24 β”‚ f(x)= 0.7725 β”‚ 5.22e-09 β”‚ 0.2529 0.5196 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.038502 Total Core solution elapsed time: 3.81238 Linear solver elapsed time: 3.27686 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 16/31, alpha value: 3.1623e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-30 β”‚ β”‚ 2 β”‚ f(x)= 71328 β”‚ 0.000249 β”‚ 7.132e+04 12.56 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.002371 β”‚ β”‚ 4 β”‚ f(x)= 2579.7 β”‚ 1.72e-05 β”‚ 2576 3.899 β”‚ β”‚ 5 β”‚ f(x)= 491.37 β”‚ 3.34e-06 β”‚ 491.1 0.2491 β”‚ β”‚ 6 β”‚ f(x)= 684.91 β”‚ 7.08e-06 β”‚ 681.9 2.971 β”‚ β”‚ 7 β”‚ f(x)= 154.31 β”‚ 1.26e-06 β”‚ 153.4 0.8809 β”‚ β”‚ 8 β”‚ f(x)= 106.96 β”‚ 1.42e-06 β”‚ 105.2 1.772 β”‚ β”‚ 9 β”‚ f(x)= 75.54 β”‚ 7.22e-07 β”‚ 73.91 1.626 β”‚ β”‚ 10 β”‚ f(x)= 44.378 β”‚ 3.49e-07 β”‚ 42.55 1.826 β”‚ β”‚ 11 β”‚ f(x)= 26.817 β”‚ 2.68e-07 β”‚ 24.66 2.155 β”‚ β”‚ 12 β”‚ f(x)= 16.012 β”‚ 1.64e-07 β”‚ 14.03 1.986 β”‚ β”‚ 13 β”‚ f(x)= 10.337 β”‚ 1.21e-07 β”‚ 8.699 1.638 β”‚ β”‚ 14 β”‚ f(x)= 5.5311 β”‚ 9.32e-08 β”‚ 4.102 1.429 β”‚ β”‚ 15 β”‚ f(x)= 3.1484 β”‚ 5.6e-08 β”‚ 1.806 1.343 β”‚ β”‚ 16 β”‚ f(x)= 2.315 β”‚ 3.11e-08 β”‚ 1.092 1.223 β”‚ β”‚ 17 β”‚ f(x)= 1.8526 β”‚ 2.32e-08 β”‚ 0.751 1.102 β”‚ β”‚ 18 β”‚ f(x)= 1.6139 β”‚ 2.65e-08 β”‚ 0.6366 0.9773 β”‚ β”‚ 19 β”‚ f(x)= 1.4507 β”‚ 1.58e-08 β”‚ 0.5291 0.9216 β”‚ β”‚ 20 β”‚ f(x)= 1.3946 β”‚ 7.97e-09 β”‚ 0.4847 0.9099 β”‚ β”‚ 21 β”‚ f(x)= 1.3627 β”‚ 4.73e-09 β”‚ 0.4615 0.9012 β”‚ β”‚ 22 β”‚ f(x)= 1.3529 β”‚ 2.96e-09 β”‚ 0.4574 0.8955 β”‚ β”‚ 23 β”‚ f(x)= 1.3518 β”‚ 1.53e-09 β”‚ 0.4584 0.8934 β”‚ β”‚ 24 β”‚ f(x)= 1.3503 β”‚ 1.11e-09 β”‚ 0.4562 0.8941 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037432 Total Core solution elapsed time: 3.81684 Linear solver elapsed time: 3.27916 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 17/31, alpha value: 6.3096e-16 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-29 β”‚ β”‚ 2 β”‚ f(x)= 71340 β”‚ 0.000249 β”‚ 7.132e+04 25.06 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.004729 β”‚ β”‚ 4 β”‚ f(x)= 2514.6 β”‚ 1.69e-05 β”‚ 2507 7.231 β”‚ β”‚ 5 β”‚ f(x)= 476.73 β”‚ 3.27e-06 β”‚ 476.2 0.492 β”‚ β”‚ 6 β”‚ f(x)= 630.13 β”‚ 6.69e-06 β”‚ 624.9 5.245 β”‚ β”‚ 7 β”‚ f(x)= 145.64 β”‚ 1.12e-06 β”‚ 143.9 1.711 β”‚ β”‚ 8 β”‚ f(x)= 103.26 β”‚ 1.28e-06 β”‚ 100.2 3.061 β”‚ β”‚ 9 β”‚ f(x)= 75.109 β”‚ 7.54e-07 β”‚ 72.17 2.936 β”‚ β”‚ 10 β”‚ f(x)= 35.538 β”‚ 2.92e-07 β”‚ 32.03 3.504 β”‚ β”‚ 11 β”‚ f(x)= 23.763 β”‚ 2.37e-07 β”‚ 20.43 3.337 β”‚ β”‚ 12 β”‚ f(x)= 12.756 β”‚ 1.5e-07 β”‚ 10.16 2.596 β”‚ β”‚ 13 β”‚ f(x)= 8.4958 β”‚ 1.21e-07 β”‚ 6.236 2.259 β”‚ β”‚ 14 β”‚ f(x)= 4.2447 β”‚ 1.44e-07 β”‚ 2.058 2.186 β”‚ β”‚ 15 β”‚ f(x)= 3.7719 β”‚ 4.92e-08 β”‚ 1.792 1.98 β”‚ β”‚ 16 β”‚ f(x)= 3.5023 β”‚ 4.11e-08 β”‚ 1.557 1.945 β”‚ β”‚ 17 β”‚ f(x)= 2.9667 β”‚ 5.72e-08 β”‚ 1.111 1.856 β”‚ β”‚ 18 β”‚ f(x)= 2.7003 β”‚ 4.19e-08 β”‚ 0.9679 1.732 β”‚ β”‚ 19 β”‚ f(x)= 2.4567 β”‚ 1.29e-08 β”‚ 0.8783 1.578 β”‚ β”‚ 20 β”‚ f(x)= 2.4154 β”‚ 8.32e-09 β”‚ 0.861 1.554 β”‚ β”‚ 21 β”‚ f(x)= 2.3868 β”‚ 5.1e-09 β”‚ 0.8364 1.55 β”‚ β”‚ 22 β”‚ f(x)= 2.3732 β”‚ 2.58e-09 β”‚ 0.8241 1.549 β”‚ β”‚ 23 β”‚ f(x)= 2.368 β”‚ 1.47e-09 β”‚ 0.8177 1.55 β”‚ β”‚ 24 β”‚ f(x)= 2.3671 β”‚ 1.04e-09 β”‚ 0.8168 1.55 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037373 Total Core solution elapsed time: 3.54313 Linear solver elapsed time: 3.05095 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 18/31, alpha value: 1.2589e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-29 β”‚ β”‚ 2 β”‚ f(x)= 71365 β”‚ 0.00025 β”‚ 7.132e+04 50 β”‚ β”‚ 3 β”‚ f(x)= 1194.8 β”‚ 5.01e-06 β”‚ 1195 0.009429 β”‚ β”‚ 4 β”‚ f(x)= 2400.9 β”‚ 1.64e-05 β”‚ 2388 12.48 β”‚ β”‚ 5 β”‚ f(x)= 449.89 β”‚ 3.14e-06 β”‚ 448.9 0.9526 β”‚ β”‚ 6 β”‚ f(x)= 542.72 β”‚ 6.03e-06 β”‚ 534.4 8.318 β”‚ β”‚ 7 β”‚ f(x)= 134.5 β”‚ 9.25e-07 β”‚ 131.3 3.189 β”‚ β”‚ 8 β”‚ f(x)= 99.858 β”‚ 1.09e-06 β”‚ 95.13 4.728 β”‚ β”‚ 9 β”‚ f(x)= 71.497 β”‚ 8.08e-07 β”‚ 66.59 4.908 β”‚ β”‚ 10 β”‚ f(x)= 27.361 β”‚ 2.91e-07 β”‚ 22.58 4.781 β”‚ β”‚ 11 β”‚ f(x)= 18.463 β”‚ 1.81e-07 β”‚ 14.19 4.269 β”‚ β”‚ 12 β”‚ f(x)= 13.458 β”‚ 1.52e-07 β”‚ 9.475 3.983 β”‚ β”‚ 13 β”‚ f(x)= 9.126 β”‚ 1.55e-07 β”‚ 5.443 3.683 β”‚ β”‚ 14 β”‚ f(x)= 6.0482 β”‚ 1.09e-07 β”‚ 2.429 3.619 β”‚ β”‚ 15 β”‚ f(x)= 5.5774 β”‚ 7.11e-08 β”‚ 2.322 3.255 β”‚ β”‚ 16 β”‚ f(x)= 5.1381 β”‚ 5.25e-08 β”‚ 2.029 3.109 β”‚ β”‚ 17 β”‚ f(x)= 4.3403 β”‚ 2.96e-08 β”‚ 1.498 2.842 β”‚ β”‚ 18 β”‚ f(x)= 4.243 β”‚ 1.55e-08 β”‚ 1.539 2.704 β”‚ β”‚ 19 β”‚ f(x)= 4.2032 β”‚ 1.01e-08 β”‚ 1.532 2.671 β”‚ β”‚ 20 β”‚ f(x)= 4.1959 β”‚ 5e-09 β”‚ 1.534 2.662 β”‚ β”‚ 21 β”‚ f(x)= 4.186 β”‚ 3.03e-09 β”‚ 1.526 2.66 β”‚ β”‚ 22 β”‚ f(x)= 4.1745 β”‚ 1.95e-09 β”‚ 1.514 2.661 β”‚ β”‚ 23 β”‚ f(x)= 4.1698 β”‚ 8.56e-10 β”‚ 1.509 2.661 β”‚ β”‚ 24 β”‚ f(x)= 4.1694 β”‚ 7.63e-10 β”‚ 1.508 2.661 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037326 Total Core solution elapsed time: 3.43394 Linear solver elapsed time: 2.94834 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 19/31, alpha value: 2.5119e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-29 β”‚ β”‚ 2 β”‚ f(x)= 71415 β”‚ 0.00025 β”‚ 7.132e+04 99.76 β”‚ β”‚ 3 β”‚ f(x)= 1194.9 β”‚ 5e-06 β”‚ 1195 0.01879 β”‚ β”‚ 4 β”‚ f(x)= 2229.3 β”‚ 1.55e-05 β”‚ 2210 18.88 β”‚ β”‚ 5 β”‚ f(x)= 406.67 β”‚ 2.92e-06 β”‚ 404.9 1.731 β”‚ β”‚ 6 β”‚ f(x)= 428.3 β”‚ 5.09e-06 β”‚ 417.1 11.18 β”‚ β”‚ 7 β”‚ f(x)= 127.62 β”‚ 8.59e-07 β”‚ 122.2 5.376 β”‚ β”‚ 8 β”‚ f(x)= 99.767 β”‚ 9.13e-07 β”‚ 93.47 6.301 β”‚ β”‚ 9 β”‚ f(x)= 50.151 β”‚ 7.36e-07 β”‚ 42.46 7.691 β”‚ β”‚ 10 β”‚ f(x)= 25.942 β”‚ 2.9e-07 β”‚ 19.57 6.376 β”‚ β”‚ 11 β”‚ f(x)= 17.735 β”‚ 1.49e-07 β”‚ 11.3 6.435 β”‚ β”‚ 12 β”‚ f(x)= 14.856 β”‚ 1.54e-07 β”‚ 8.565 6.291 β”‚ β”‚ 13 β”‚ f(x)= 10.305 β”‚ 1.29e-07 β”‚ 4.442 5.863 β”‚ β”‚ 14 β”‚ f(x)= 7.9344 β”‚ 9.54e-08 β”‚ 2.604 5.33 β”‚ β”‚ 15 β”‚ f(x)= 7.5698 β”‚ 8.64e-08 β”‚ 2.521 5.048 β”‚ β”‚ 16 β”‚ f(x)= 7.5498 β”‚ 2.22e-08 β”‚ 2.934 4.616 β”‚ β”‚ 17 β”‚ f(x)= 7.4841 β”‚ 1.98e-08 β”‚ 2.894 4.59 β”‚ β”‚ 18 β”‚ f(x)= 7.4563 β”‚ 1.59e-08 β”‚ 2.958 4.498 β”‚ β”‚ 19 β”‚ f(x)= 7.3577 β”‚ 1.14e-08 β”‚ 2.862 4.496 β”‚ β”‚ 20 β”‚ f(x)= 7.3385 β”‚ 7.56e-09 β”‚ 2.857 4.482 β”‚ β”‚ 21 β”‚ f(x)= 7.3376 β”‚ 2.51e-09 β”‚ 2.855 4.483 β”‚ β”‚ 22 β”‚ f(x)= 7.34 β”‚ 1.37e-09 β”‚ 2.858 4.482 β”‚ β”‚ 23 β”‚ f(x)= 7.3403 β”‚ 2.24e-09 β”‚ 2.858 4.483 β”‚ β”‚ 24 β”‚ f(x)= 7.3399 β”‚ 2.28e-09 β”‚ 2.857 4.483 β”‚ β”‚ 25 β”‚ f(x)= 7.3397 β”‚ 2.31e-09 β”‚ 2.857 4.483 β”‚ β”‚ 26 β”‚ f(x)= 7.3396 β”‚ 2.33e-09 β”‚ 2.857 4.483 β”‚ β”‚ 27 β”‚ f(x)= 7.3396 β”‚ 2.34e-09 β”‚ 2.857 4.483 β”‚ β”‚ 28 β”‚ f(x)= 7.3396 β”‚ 2.35e-09 β”‚ 2.857 4.483 β”‚ β”‚ 29 β”‚ f(x)= 7.3396 β”‚ 2.36e-09 β”‚ 2.857 4.483 β”‚ β”‚ 30 β”‚ f(x)= 7.3395 β”‚ 2.36e-09 β”‚ 2.857 4.483 β”‚ β”‚ 31 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 32 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 33 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 34 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 35 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 36 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 37 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 38 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 39 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β”‚ 40 β”‚ f(x)= 7.3395 β”‚ 2.37e-09 β”‚ 2.857 4.483 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036898 Total Core solution elapsed time: 3.81313 Linear solver elapsed time: 3.23523 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 20/31, alpha value: 5.0119e-15 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-29 β”‚ β”‚ 2 β”‚ f(x)= 71514 β”‚ 0.00025 β”‚ 7.132e+04 199 β”‚ β”‚ 3 β”‚ f(x)= 1195 β”‚ 5e-06 β”‚ 1195 0.03739 β”‚ β”‚ 4 β”‚ f(x)= 2048.3 β”‚ 1.46e-05 β”‚ 2024 24.08 β”‚ β”‚ 5 β”‚ f(x)= 360.35 β”‚ 2.64e-06 β”‚ 357.7 2.687 β”‚ β”‚ 6 β”‚ f(x)= 325.84 β”‚ 4.11e-06 β”‚ 313.1 12.77 β”‚ β”‚ 7 β”‚ f(x)= 119.09 β”‚ 8.06e-07 β”‚ 113.1 6.017 β”‚ β”‚ 8 β”‚ f(x)= 95.44 β”‚ 6.52e-07 β”‚ 88.47 6.972 β”‚ β”‚ 9 β”‚ f(x)= 56.855 β”‚ 8e-07 β”‚ 46.92 9.931 β”‚ β”‚ 10 β”‚ f(x)= 39.071 β”‚ 4.61e-07 β”‚ 29.55 9.516 β”‚ β”‚ 11 β”‚ f(x)= 24.564 β”‚ 1.86e-07 β”‚ 14.58 9.987 β”‚ β”‚ 12 β”‚ f(x)= 21.157 β”‚ 2e-07 β”‚ 11.15 10.01 β”‚ β”‚ 13 β”‚ f(x)= 15.703 β”‚ 1.63e-07 β”‚ 6.414 9.289 β”‚ β”‚ 14 β”‚ f(x)= 13.315 β”‚ 1.76e-07 β”‚ 4.56 8.755 β”‚ β”‚ 15 β”‚ f(x)= 12.983 β”‚ 8.69e-08 β”‚ 5.057 7.927 β”‚ β”‚ 16 β”‚ f(x)= 13.11 β”‚ 2.89e-08 β”‚ 5.509 7.601 β”‚ β”‚ 17 β”‚ f(x)= 12.992 β”‚ 7.42e-08 β”‚ 5.144 7.849 β”‚ β”‚ 18 β”‚ f(x)= 12.988 β”‚ 7.43e-08 β”‚ 5.139 7.849 β”‚ β”‚ 19 β”‚ f(x)= 12.988 β”‚ 7.49e-08 β”‚ 5.136 7.853 β”‚ β”‚ 20 β”‚ f(x)= 12.991 β”‚ 7.79e-08 β”‚ 5.12 7.871 β”‚ β”‚ 21 β”‚ f(x)= 12.991 β”‚ 8.06e-08 β”‚ 5.104 7.887 β”‚ β”‚ 22 β”‚ f(x)= 12.99 β”‚ 8.25e-08 β”‚ 5.091 7.899 β”‚ β”‚ 23 β”‚ f(x)= 12.991 β”‚ 8.38e-08 β”‚ 5.084 7.907 β”‚ β”‚ 24 β”‚ f(x)= 12.99 β”‚ 8.47e-08 β”‚ 5.077 7.913 β”‚ β”‚ 25 β”‚ f(x)= 12.991 β”‚ 8.54e-08 β”‚ 5.074 7.917 β”‚ β”‚ 26 β”‚ f(x)= 12.99 β”‚ 8.58e-08 β”‚ 5.071 7.92 β”‚ β”‚ 27 β”‚ f(x)= 12.99 β”‚ 8.62e-08 β”‚ 5.068 7.922 β”‚ β”‚ 28 β”‚ f(x)= 12.989 β”‚ 8.64e-08 β”‚ 5.066 7.923 β”‚ β”‚ 29 β”‚ f(x)= 12.989 β”‚ 8.65e-08 β”‚ 5.064 7.924 β”‚ β”‚ 30 β”‚ f(x)= 12.988 β”‚ 8.66e-08 β”‚ 5.063 7.925 β”‚ β”‚ 31 β”‚ f(x)= 12.988 β”‚ 8.67e-08 β”‚ 5.063 7.925 β”‚ β”‚ 32 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.062 7.926 β”‚ β”‚ 33 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.062 7.926 β”‚ β”‚ 34 β”‚ f(x)= 12.988 β”‚ 8.68e-08 β”‚ 5.061 7.926 β”‚ β”‚ 35 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 36 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 37 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 38 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 39 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.926 β”‚ β”‚ 40 β”‚ f(x)= 12.987 β”‚ 8.69e-08 β”‚ 5.061 7.927 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037252 Total Core solution elapsed time: 3.55621 Linear solver elapsed time: 3.01384 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 21/31, alpha value: 1e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-28 β”‚ β”‚ 2 β”‚ f(x)= 71712 β”‚ 0.000251 β”‚ 7.132e+04 397.2 β”‚ β”‚ 3 β”‚ f(x)= 1195.3 β”‚ 4.99e-06 β”‚ 1195 0.07421 β”‚ β”‚ 4 β”‚ f(x)= 2034.2 β”‚ 1.44e-05 β”‚ 1998 36.28 β”‚ β”‚ 5 β”‚ f(x)= 370.6 β”‚ 2.67e-06 β”‚ 366.8 3.796 β”‚ β”‚ 6 β”‚ f(x)= 313.11 β”‚ 3.94e-06 β”‚ 296.6 16.48 β”‚ β”‚ 7 β”‚ f(x)= 125.45 β”‚ 7.9e-07 β”‚ 117.9 7.531 β”‚ β”‚ 8 β”‚ f(x)= 102.68 β”‚ 6.55e-07 β”‚ 93.8 8.884 β”‚ β”‚ 9 β”‚ f(x)= 58.868 β”‚ 7.4e-07 β”‚ 44.27 14.59 β”‚ β”‚ 10 β”‚ f(x)= 42.858 β”‚ 3.92e-07 β”‚ 28.75 14.11 β”‚ β”‚ 11 β”‚ f(x)= 30.214 β”‚ 2.06e-07 β”‚ 15.55 14.66 β”‚ β”‚ 12 β”‚ f(x)= 27.069 β”‚ 2.27e-07 β”‚ 12.64 14.43 β”‚ β”‚ 13 β”‚ f(x)= 23.067 β”‚ 2.36e-07 β”‚ 8.939 14.13 β”‚ β”‚ 14 β”‚ f(x)= 22.643 β”‚ 1.56e-07 β”‚ 9.7 12.94 β”‚ β”‚ 15 β”‚ f(x)= 22.918 β”‚ 7.35e-08 β”‚ 10.63 12.29 β”‚ β”‚ 16 β”‚ f(x)= 22.676 β”‚ 1.41e-07 β”‚ 9.84 12.84 β”‚ β”‚ 17 β”‚ f(x)= 22.669 β”‚ 1.41e-07 β”‚ 9.832 12.84 β”‚ β”‚ 18 β”‚ f(x)= 22.668 β”‚ 1.42e-07 β”‚ 9.826 12.84 β”‚ β”‚ 19 β”‚ f(x)= 22.671 β”‚ 1.45e-07 β”‚ 9.804 12.87 β”‚ β”‚ 20 β”‚ f(x)= 22.668 β”‚ 1.48e-07 β”‚ 9.778 12.89 β”‚ β”‚ 21 β”‚ f(x)= 22.663 β”‚ 1.51e-07 β”‚ 9.757 12.91 β”‚ β”‚ 22 β”‚ f(x)= 22.663 β”‚ 1.52e-07 β”‚ 9.746 12.92 β”‚ β”‚ 23 β”‚ f(x)= 22.66 β”‚ 1.53e-07 β”‚ 9.736 12.92 β”‚ β”‚ 24 β”‚ f(x)= 22.657 β”‚ 1.54e-07 β”‚ 9.727 12.93 β”‚ β”‚ 25 β”‚ f(x)= 22.655 β”‚ 1.54e-07 β”‚ 9.721 12.93 β”‚ β”‚ 26 β”‚ f(x)= 22.653 β”‚ 1.55e-07 β”‚ 9.716 12.94 β”‚ β”‚ 27 β”‚ f(x)= 22.651 β”‚ 1.55e-07 β”‚ 9.713 12.94 β”‚ β”‚ 28 β”‚ f(x)= 22.65 β”‚ 1.55e-07 β”‚ 9.71 12.94 β”‚ β”‚ 29 β”‚ f(x)= 22.65 β”‚ 1.55e-07 β”‚ 9.709 12.94 β”‚ β”‚ 30 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.707 12.94 β”‚ β”‚ 31 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.707 12.94 β”‚ β”‚ 32 β”‚ f(x)= 22.649 β”‚ 1.56e-07 β”‚ 9.706 12.94 β”‚ β”‚ 33 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.706 12.94 β”‚ β”‚ 34 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 35 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 36 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 37 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 38 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 39 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β”‚ 40 β”‚ f(x)= 22.648 β”‚ 1.56e-07 β”‚ 9.705 12.94 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037863 Total Core solution elapsed time: 3.4201 Linear solver elapsed time: 2.87566 (84%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 22/31, alpha value: 1.9953e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.88e-28 β”‚ β”‚ 2 β”‚ f(x)= 72108 β”‚ 0.000253 β”‚ 7.132e+04 792.4 β”‚ β”‚ 3 β”‚ f(x)= 1195.9 β”‚ 4.97e-06 β”‚ 1196 0.1465 β”‚ β”‚ 4 β”‚ f(x)= 2249.2 β”‚ 1.52e-05 β”‚ 2170 78.89 β”‚ β”‚ 5 β”‚ f(x)= 455.91 β”‚ 3.14e-06 β”‚ 450.1 5.763 β”‚ β”‚ 6 β”‚ f(x)= 537.82 β”‚ 6.68e-06 β”‚ 467.6 70.18 β”‚ β”‚ 7 β”‚ f(x)= 174.46 β”‚ 1.51e-06 β”‚ 160.5 14 β”‚ β”‚ 8 β”‚ f(x)= 144.68 β”‚ 1.36e-06 β”‚ 130.8 13.91 β”‚ β”‚ 9 β”‚ f(x)= 115.64 β”‚ 8.91e-07 β”‚ 102.3 13.33 β”‚ β”‚ 10 β”‚ f(x)= 61.962 β”‚ 4.33e-07 β”‚ 39.9 22.06 β”‚ β”‚ 11 β”‚ f(x)= 53.493 β”‚ 9.28e-07 β”‚ 28.45 25.04 β”‚ β”‚ 12 β”‚ f(x)= 49.873 β”‚ 3.75e-07 β”‚ 28.32 21.56 β”‚ β”‚ 13 β”‚ f(x)= 46.699 β”‚ 2.3e-07 β”‚ 26.23 20.47 β”‚ β”‚ 14 β”‚ f(x)= 43.816 β”‚ 2.46e-07 β”‚ 24.24 19.57 β”‚ β”‚ 15 β”‚ f(x)= 40.609 β”‚ 1.99e-07 β”‚ 21.69 18.92 β”‚ β”‚ 16 β”‚ f(x)= 39.455 β”‚ 4.62e-07 β”‚ 20 19.45 β”‚ β”‚ 17 β”‚ f(x)= 38.82 β”‚ 8.48e-08 β”‚ 20.27 18.55 β”‚ β”‚ 18 β”‚ f(x)= 38.667 β”‚ 5.97e-08 β”‚ 20.08 18.58 β”‚ β”‚ 19 β”‚ f(x)= 38.202 β”‚ 5.57e-08 β”‚ 19.58 18.62 β”‚ β”‚ 20 β”‚ f(x)= 37.955 β”‚ 1.12e-07 β”‚ 19.18 18.77 β”‚ β”‚ 21 β”‚ f(x)= 37.924 β”‚ 2.27e-08 β”‚ 19.24 18.69 β”‚ β”‚ 22 β”‚ f(x)= 37.924 β”‚ 1.12e-08 β”‚ 19.25 18.67 β”‚ β”‚ 23 β”‚ f(x)= 37.924 β”‚ 1.93e-08 β”‚ 19.24 18.68 β”‚ β”‚ 24 β”‚ f(x)= 37.884 β”‚ 8.41e-09 β”‚ 19.18 18.7 β”‚ β”‚ 25 β”‚ f(x)= 37.89 β”‚ 6.51e-09 β”‚ 19.2 18.69 β”‚ β”‚ 26 β”‚ f(x)= 37.883 β”‚ 7.86e-09 β”‚ 19.18 18.7 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037014 Total Core solution elapsed time: 3.46859 Linear solver elapsed time: 2.95439 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 23/31, alpha value: 3.9811e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.742e-28 β”‚ β”‚ 2 β”‚ f(x)= 72896 β”‚ 0.000256 β”‚ 7.132e+04 1581 β”‚ β”‚ 3 β”‚ f(x)= 1197 β”‚ 4.93e-06 β”‚ 1197 0.2863 β”‚ β”‚ 4 β”‚ f(x)= 1854.5 β”‚ 1.38e-05 β”‚ 1744 110.7 β”‚ β”‚ 5 β”‚ f(x)= 363.81 β”‚ 2.86e-06 β”‚ 350.1 13.7 β”‚ β”‚ 6 β”‚ f(x)= 554.86 β”‚ 9.89e-06 β”‚ 387.8 167 β”‚ β”‚ 7 β”‚ f(x)= 223.29 β”‚ 1.96e-06 β”‚ 207.5 15.8 β”‚ β”‚ 8 β”‚ f(x)= 189.12 β”‚ 1.58e-06 β”‚ 172.7 16.37 β”‚ β”‚ 9 β”‚ f(x)= 158.91 β”‚ 1.06e-06 β”‚ 144.4 14.47 β”‚ β”‚ 10 β”‚ f(x)= 100.33 β”‚ 8.39e-07 β”‚ 76.79 23.54 β”‚ β”‚ 11 β”‚ f(x)= 89.996 β”‚ 2.69e-06 β”‚ 43.01 46.99 β”‚ β”‚ 12 β”‚ f(x)= 81.884 β”‚ 5.22e-07 β”‚ 54.14 27.74 β”‚ β”‚ 13 β”‚ f(x)= 80.243 β”‚ 3.75e-07 β”‚ 53.47 26.78 β”‚ β”‚ 14 β”‚ f(x)= 74.268 β”‚ 3.9e-07 β”‚ 48.44 25.83 β”‚ β”‚ 15 β”‚ f(x)= 71.276 β”‚ 5e-07 β”‚ 45.88 25.4 β”‚ β”‚ 16 β”‚ f(x)= 67.8 β”‚ 2.32e-07 β”‚ 42.17 25.63 β”‚ β”‚ 17 β”‚ f(x)= 66.774 β”‚ 1.68e-07 β”‚ 41.44 25.34 β”‚ β”‚ 18 β”‚ f(x)= 65.473 β”‚ 1.77e-07 β”‚ 40.26 25.21 β”‚ β”‚ 19 β”‚ f(x)= 64.258 β”‚ 2.01e-07 β”‚ 38.77 25.49 β”‚ β”‚ 20 β”‚ f(x)= 63.946 β”‚ 7.84e-08 β”‚ 38.49 25.45 β”‚ β”‚ 21 β”‚ f(x)= 63.789 β”‚ 5.39e-08 β”‚ 38.34 25.45 β”‚ β”‚ 22 β”‚ f(x)= 63.627 β”‚ 4.51e-08 β”‚ 38.15 25.48 β”‚ β”‚ 23 β”‚ f(x)= 63.534 β”‚ 9.03e-08 β”‚ 38.06 25.48 β”‚ β”‚ 24 β”‚ f(x)= 63.523 β”‚ 1.4e-08 β”‚ 38.08 25.44 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037308 Total Core solution elapsed time: 3.32063 Linear solver elapsed time: 2.85739 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 24/31, alpha value: 7.9433e-14 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.545e-27 β”‚ β”‚ 2 β”‚ f(x)= 74470 β”‚ 0.000264 β”‚ 7.132e+04 3155 β”‚ β”‚ 3 β”‚ f(x)= 1199.2 β”‚ 4.87e-06 β”‚ 1199 0.5484 β”‚ β”‚ 4 β”‚ f(x)= 774.16 β”‚ 9.13e-06 β”‚ 660 114.1 β”‚ β”‚ 5 β”‚ f(x)= 335.5 β”‚ 8.34e-06 β”‚ 254.7 80.77 β”‚ β”‚ 6 β”‚ f(x)= 270.28 β”‚ 4.66e-06 β”‚ 239.5 30.82 β”‚ β”‚ 7 β”‚ f(x)= 206.2 β”‚ 1.18e-06 β”‚ 188.9 17.28 β”‚ β”‚ 8 β”‚ f(x)= 191.31 β”‚ 1.14e-06 β”‚ 173.2 18.06 β”‚ β”‚ 9 β”‚ f(x)= 160.85 β”‚ 1.43e-06 β”‚ 142.6 18.3 β”‚ β”‚ 10 β”‚ f(x)= 146.16 β”‚ 4.31e-06 β”‚ 99.12 47.04 β”‚ β”‚ 11 β”‚ f(x)= 123.96 β”‚ 7.27e-07 β”‚ 98.56 25.39 β”‚ β”‚ 12 β”‚ f(x)= 120.61 β”‚ 4.9e-07 β”‚ 95.68 24.94 β”‚ β”‚ 13 β”‚ f(x)= 114.64 β”‚ 5.39e-07 β”‚ 88.28 26.36 β”‚ β”‚ 14 β”‚ f(x)= 108.99 β”‚ 1.14e-06 β”‚ 79.71 29.28 β”‚ β”‚ 15 β”‚ f(x)= 106.18 β”‚ 4.61e-07 β”‚ 77.69 28.49 β”‚ β”‚ 16 β”‚ f(x)= 104.33 β”‚ 3.08e-07 β”‚ 75.91 28.42 β”‚ β”‚ 17 β”‚ f(x)= 102.8 β”‚ 2.8e-07 β”‚ 74.24 28.56 β”‚ β”‚ 18 β”‚ f(x)= 100.88 β”‚ 7.13e-07 β”‚ 71.33 29.54 β”‚ β”‚ 19 β”‚ f(x)= 100.39 β”‚ 1.43e-07 β”‚ 71.32 29.06 β”‚ β”‚ 20 β”‚ f(x)= 100.22 β”‚ 9.97e-08 β”‚ 71.18 29.04 β”‚ β”‚ 21 β”‚ f(x)= 99.68 β”‚ 1.09e-07 β”‚ 70.62 29.06 β”‚ β”‚ 22 β”‚ f(x)= 99.264 β”‚ 1.07e-07 β”‚ 70.31 28.95 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037691 Total Core solution elapsed time: 2.97082 Linear solver elapsed time: 2.55635 (86%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 25/31, alpha value: 1.5849e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 3.082e-27 β”‚ β”‚ 2 β”‚ f(x)= 77610 β”‚ 0.000284 β”‚ 7.132e+04 6294 β”‚ β”‚ 3 β”‚ f(x)= 1203.3 β”‚ 4.8e-06 β”‚ 1202 1.011 β”‚ β”‚ 4 β”‚ f(x)= 328.68 β”‚ 7.4e-06 β”‚ 219 109.7 β”‚ β”‚ 5 β”‚ f(x)= 455.44 β”‚ 2.08e-05 β”‚ 199.6 255.9 β”‚ β”‚ 6 β”‚ f(x)= 286.08 β”‚ 6.46e-06 β”‚ 212.1 74.02 β”‚ β”‚ 7 β”‚ f(x)= 277 β”‚ 2.54e-06 β”‚ 245.8 31.22 β”‚ β”‚ 8 β”‚ f(x)= 237.11 β”‚ 1.81e-06 β”‚ 210.7 26.39 β”‚ β”‚ 9 β”‚ f(x)= 193.38 β”‚ 2.74e-06 β”‚ 169.3 24.07 β”‚ β”‚ 10 β”‚ f(x)= 187.1 β”‚ 5.3e-06 β”‚ 148.9 38.24 β”‚ β”‚ 11 β”‚ f(x)= 174.07 β”‚ 1.18e-06 β”‚ 154.4 19.67 β”‚ β”‚ 12 β”‚ f(x)= 170.97 β”‚ 8.01e-07 β”‚ 152.1 18.82 β”‚ β”‚ 13 β”‚ f(x)= 163.81 β”‚ 8.7e-07 β”‚ 144.1 19.71 β”‚ β”‚ 14 β”‚ f(x)= 157.24 β”‚ 1.22e-06 β”‚ 135.7 21.52 β”‚ β”‚ 15 β”‚ f(x)= 148.14 β”‚ 7.94e-07 β”‚ 123.2 24.92 β”‚ β”‚ 16 β”‚ f(x)= 143.35 β”‚ 5.68e-07 β”‚ 117.6 25.77 β”‚ β”‚ 17 β”‚ f(x)= 140.07 β”‚ 1.07e-06 β”‚ 112.6 27.46 β”‚ β”‚ 18 β”‚ f(x)= 139.75 β”‚ 2.69e-07 β”‚ 113.4 26.3 β”‚ β”‚ 19 β”‚ f(x)= 139.78 β”‚ 1.65e-07 β”‚ 113.7 26.09 β”‚ β”‚ 20 β”‚ f(x)= 139.77 β”‚ 2.48e-07 β”‚ 113.5 26.26 β”‚ β”‚ 21 β”‚ f(x)= 139.76 β”‚ 2.49e-07 β”‚ 113.5 26.26 β”‚ β”‚ 22 β”‚ f(x)= 139.76 β”‚ 2.5e-07 β”‚ 113.5 26.26 β”‚ β”‚ 23 β”‚ f(x)= 139.76 β”‚ 2.54e-07 β”‚ 113.5 26.27 β”‚ β”‚ 24 β”‚ f(x)= 139.77 β”‚ 2.59e-07 β”‚ 113.5 26.28 β”‚ β”‚ 25 β”‚ f(x)= 139.76 β”‚ 2.62e-07 β”‚ 113.5 26.28 β”‚ β”‚ 26 β”‚ f(x)= 139.76 β”‚ 2.64e-07 β”‚ 113.5 26.29 β”‚ β”‚ 27 β”‚ f(x)= 139.76 β”‚ 2.66e-07 β”‚ 113.5 26.29 β”‚ β”‚ 28 β”‚ f(x)= 139.76 β”‚ 2.67e-07 β”‚ 113.5 26.29 β”‚ β”‚ 29 β”‚ f(x)= 139.76 β”‚ 2.68e-07 β”‚ 113.5 26.29 β”‚ β”‚ 30 β”‚ f(x)= 139.76 β”‚ 2.68e-07 β”‚ 113.5 26.29 β”‚ β”‚ 31 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 32 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 33 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 34 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 35 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 36 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 37 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 38 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 39 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β”‚ 40 β”‚ f(x)= 139.76 β”‚ 2.69e-07 β”‚ 113.5 26.3 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of function calls exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037566 Total Core solution elapsed time: 3.2622 Linear solver elapsed time: 2.7512 (84%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 26/31, alpha value: 3.1623e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 6.15e-27 β”‚ β”‚ 2 β”‚ f(x)= 83874 β”‚ 0.000334 β”‚ 7.132e+04 1.256e+04 β”‚ β”‚ 3 β”‚ f(x)= 1210.5 β”‚ 4.8e-06 β”‚ 1209 1.738 β”‚ β”‚ 4 β”‚ f(x)= 506.75 β”‚ 8.9e-06 β”‚ 419.4 87.32 β”‚ β”‚ 5 β”‚ f(x)= 446.42 β”‚ 2.49e-05 β”‚ 213.4 233 β”‚ β”‚ 6 β”‚ f(x)= 316.22 β”‚ 4.77e-06 β”‚ 254.4 61.87 β”‚ β”‚ 7 β”‚ f(x)= 299.43 β”‚ 3.25e-06 β”‚ 247.9 51.51 β”‚ β”‚ 8 β”‚ f(x)= 256.47 β”‚ 4.06e-06 β”‚ 217.7 38.8 β”‚ β”‚ 9 β”‚ f(x)= 228.37 β”‚ 3.74e-06 β”‚ 200.6 27.73 β”‚ β”‚ 10 β”‚ f(x)= 232.34 β”‚ 1.11e-05 β”‚ 178.1 54.26 β”‚ β”‚ 11 β”‚ f(x)= 214.17 β”‚ 5.78e-06 β”‚ 185.7 28.42 β”‚ β”‚ 12 β”‚ f(x)= 202.2 β”‚ 1.36e-06 β”‚ 182.1 20.1 β”‚ β”‚ 13 β”‚ f(x)= 200.37 β”‚ 1.11e-06 β”‚ 181.6 18.78 β”‚ β”‚ 14 β”‚ f(x)= 196.33 β”‚ 1.34e-06 β”‚ 178.7 17.63 β”‚ β”‚ 15 β”‚ f(x)= 190.45 β”‚ 2.51e-06 β”‚ 172.3 18.18 β”‚ β”‚ 16 β”‚ f(x)= 184.77 β”‚ 1.4e-06 β”‚ 167.3 17.49 β”‚ β”‚ 17 β”‚ f(x)= 178.36 β”‚ 9.27e-07 β”‚ 160.4 17.98 β”‚ β”‚ 18 β”‚ f(x)= 175.09 β”‚ 1.26e-06 β”‚ 156.2 18.94 β”‚ β”‚ 19 β”‚ f(x)= 173.88 β”‚ 4.34e-07 β”‚ 155 18.85 β”‚ β”‚ 20 β”‚ f(x)= 173.88 β”‚ 2.46e-07 β”‚ 155.3 18.57 β”‚ β”‚ 21 β”‚ f(x)= 173.87 β”‚ 3.74e-07 β”‚ 155.1 18.77 β”‚ β”‚ 22 β”‚ f(x)= 173.74 β”‚ 1.92e-07 β”‚ 155.3 18.43 β”‚ β”‚ 23 β”‚ f(x)= 173.49 β”‚ 1.73e-07 β”‚ 154.9 18.56 β”‚ β”‚ 24 β”‚ f(x)= 173.28 β”‚ 7.69e-08 β”‚ 154.6 18.63 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036804 Total Core solution elapsed time: 2.957 Linear solver elapsed time: 2.52696 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 27/31, alpha value: 6.3096e-13 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.227e-26 β”‚ β”‚ 2 β”‚ f(x)= 96374 β”‚ 0.000463 β”‚ 7.132e+04 2.506e+04 β”‚ β”‚ 3 β”‚ f(x)= 1220.7 β”‚ 5.17e-06 β”‚ 1218 2.747 β”‚ β”‚ 4 β”‚ f(x)= 803.79 β”‚ 1.05e-05 β”‚ 746.4 57.41 β”‚ β”‚ 5 β”‚ f(x)= 486.58 β”‚ 2.52e-05 β”‚ 311.5 175 β”‚ β”‚ 6 β”‚ f(x)= 404.52 β”‚ 7.55e-06 β”‚ 309.5 95.03 β”‚ β”‚ 7 β”‚ f(x)= 391.83 β”‚ 5.62e-06 β”‚ 320.6 71.25 β”‚ β”‚ 8 β”‚ f(x)= 334.87 β”‚ 6.84e-06 β”‚ 275.2 59.65 β”‚ β”‚ 9 β”‚ f(x)= 267.47 β”‚ 6.44e-06 β”‚ 228.2 39.3 β”‚ β”‚ 10 β”‚ f(x)= 292.34 β”‚ 2.26e-05 β”‚ 197.7 94.63 β”‚ β”‚ 11 β”‚ f(x)= 249.38 β”‚ 9.38e-06 β”‚ 210.2 39.18 β”‚ β”‚ 12 β”‚ f(x)= 230.49 β”‚ 2.77e-06 β”‚ 202.3 28.19 β”‚ β”‚ 13 β”‚ f(x)= 227.02 β”‚ 1.92e-06 β”‚ 202.1 24.94 β”‚ β”‚ 14 β”‚ f(x)= 223.02 β”‚ 2.08e-06 β”‚ 200.6 22.4 β”‚ β”‚ 15 β”‚ f(x)= 217.02 β”‚ 3.26e-06 β”‚ 198 19.04 β”‚ β”‚ 16 β”‚ f(x)= 209.3 β”‚ 2.61e-06 β”‚ 193.8 15.52 β”‚ β”‚ 17 β”‚ f(x)= 204 β”‚ 1.75e-06 β”‚ 191.3 12.74 β”‚ β”‚ 18 β”‚ f(x)= 200.27 β”‚ 2.3e-06 β”‚ 188.7 11.54 β”‚ β”‚ 19 β”‚ f(x)= 199.22 β”‚ 1.16e-06 β”‚ 188.3 10.88 β”‚ β”‚ 20 β”‚ f(x)= 199.04 β”‚ 4.76e-07 β”‚ 188.4 10.68 β”‚ β”‚ 21 β”‚ f(x)= 198.83 β”‚ 2.83e-07 β”‚ 188.2 10.66 β”‚ β”‚ 22 β”‚ f(x)= 198.42 β”‚ 2.33e-07 β”‚ 187.7 10.73 β”‚ β”‚ 23 β”‚ f(x)= 198.15 β”‚ 3.63e-07 β”‚ 187.3 10.88 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037375 Total Core solution elapsed time: 2.84641 Linear solver elapsed time: 2.42851 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 28/31, alpha value: 1.2589e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 2.448e-26 β”‚ β”‚ 2 β”‚ f(x)=1.2131e+05 β”‚ 0.000758 β”‚ 7.132e+04 5e+04 β”‚ β”‚ 3 β”‚ f(x)= 1223.5 β”‚ 7.24e-06 β”‚ 1218 5.481 β”‚ β”‚ 4 β”‚ f(x)= 1022.5 β”‚ 1.16e-05 β”‚ 989.3 33.28 β”‚ β”‚ 5 β”‚ f(x)= 683.56 β”‚ 2.96e-05 β”‚ 536.1 147.5 β”‚ β”‚ 6 β”‚ f(x)= 577.58 β”‚ 1.1e-05 β”‚ 469.9 107.7 β”‚ β”‚ 7 β”‚ f(x)= 549.24 β”‚ 9.18e-06 β”‚ 463.2 86.04 β”‚ β”‚ 8 β”‚ f(x)= 458.84 β”‚ 1.14e-05 β”‚ 382.5 76.32 β”‚ β”‚ 9 β”‚ f(x)= 338.95 β”‚ 1.22e-05 β”‚ 275.2 63.75 β”‚ β”‚ 10 β”‚ f(x)= 353.31 β”‚ 3.76e-05 β”‚ 207.9 145.4 β”‚ β”‚ 11 β”‚ f(x)= 296.66 β”‚ 1.92e-05 β”‚ 226.2 70.47 β”‚ β”‚ 12 β”‚ f(x)= 264.73 β”‚ 5.2e-06 β”‚ 219.1 45.63 β”‚ β”‚ 13 β”‚ f(x)= 259.17 β”‚ 3.62e-06 β”‚ 219.4 39.79 β”‚ β”‚ 14 β”‚ f(x)= 252.24 β”‚ 3.87e-06 β”‚ 217.1 35.1 β”‚ β”‚ 15 β”‚ f(x)= 242.18 β”‚ 5.91e-06 β”‚ 214 28.19 β”‚ β”‚ 16 β”‚ f(x)= 230.92 β”‚ 5.22e-06 β”‚ 210.7 20.25 β”‚ β”‚ 17 β”‚ f(x)= 222.89 β”‚ 3.51e-06 β”‚ 209.5 13.35 β”‚ β”‚ 18 β”‚ f(x)= 216.54 β”‚ 4.2e-06 β”‚ 208.9 7.667 β”‚ β”‚ 19 β”‚ f(x)= 215.18 β”‚ 3.7e-06 β”‚ 208.4 6.772 β”‚ β”‚ 20 β”‚ f(x)= 214.25 β”‚ 1.05e-06 β”‚ 208.3 5.937 β”‚ β”‚ 21 β”‚ f(x)= 214.02 β”‚ 6.32e-07 β”‚ 208.2 5.769 β”‚ β”‚ 22 β”‚ f(x)= 213.56 β”‚ 5.64e-07 β”‚ 207.9 5.675 β”‚ β”‚ 23 β”‚ f(x)= 213.21 β”‚ 5.86e-07 β”‚ 207.5 5.733 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.036969 Total Core solution elapsed time: 2.98078 Linear solver elapsed time: 2.54451 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 29/31, alpha value: 2.5119e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 4.885e-26 β”‚ β”‚ 2 β”‚ f(x)=1.7108e+05 β”‚ 0.00139 β”‚ 7.132e+04 9.976e+04 β”‚ β”‚ 3 β”‚ f(x)= 1228.9 β”‚ 1.33e-05 β”‚ 1218 10.94 β”‚ β”‚ 4 β”‚ f(x)= 1151.7 β”‚ 1.21e-05 β”‚ 1134 17.99 β”‚ β”‚ 5 β”‚ f(x)= 889.9 β”‚ 1.67e-05 β”‚ 813.2 76.67 β”‚ β”‚ 6 β”‚ f(x)= 732.72 β”‚ 3.17e-05 β”‚ 597.5 135.2 β”‚ β”‚ 7 β”‚ f(x)= 723.66 β”‚ 1.49e-05 β”‚ 637.5 86.12 β”‚ β”‚ 8 β”‚ f(x)= 667.62 β”‚ 1.09e-05 β”‚ 600 67.66 β”‚ β”‚ 9 β”‚ f(x)= 538.85 β”‚ 1.7e-05 β”‚ 469.4 69.44 β”‚ β”‚ 10 β”‚ f(x)= 384.08 β”‚ 1.72e-05 β”‚ 314.4 69.7 β”‚ β”‚ 11 β”‚ f(x)= 436.76 β”‚ 6.77e-05 β”‚ 213.5 223.2 β”‚ β”‚ 12 β”‚ f(x)= 336.07 β”‚ 3.16e-05 β”‚ 241.6 94.42 β”‚ β”‚ 13 β”‚ f(x)= 300.11 β”‚ 7.93e-06 β”‚ 236.9 63.19 β”‚ β”‚ 14 β”‚ f(x)= 295.1 β”‚ 5.57e-06 β”‚ 238.9 56.17 β”‚ β”‚ 15 β”‚ f(x)= 284.12 β”‚ 7.87e-06 β”‚ 235.9 48.22 β”‚ β”‚ 16 β”‚ f(x)= 264.81 β”‚ 1.15e-05 β”‚ 228.6 36.18 β”‚ β”‚ 17 β”‚ f(x)= 246.59 β”‚ 1.85e-05 β”‚ 219.9 26.72 β”‚ β”‚ 18 β”‚ f(x)= 231.07 β”‚ 6.7e-06 β”‚ 219.5 11.56 β”‚ β”‚ 19 β”‚ f(x)= 225.58 β”‚ 3.84e-06 β”‚ 219.1 6.499 β”‚ β”‚ 20 β”‚ f(x)= 223.17 β”‚ 2.84e-06 β”‚ 218.8 4.384 β”‚ β”‚ 21 β”‚ f(x)= 222.47 β”‚ 4.84e-06 β”‚ 218.5 3.95 β”‚ β”‚ 22 β”‚ f(x)= 221.59 β”‚ 1.02e-06 β”‚ 218.4 3.145 β”‚ β”‚ 23 β”‚ f(x)= 221.47 β”‚ 6.48e-07 β”‚ 218.4 3.085 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.043542 Total Core solution elapsed time: 3.08321 Linear solver elapsed time: 2.60904 (85%) Total elapsed time: 0 hrs 0 min 3 sec ------------------------------------------------------------ alpha iteration: 30/31, alpha value: 5.0119e-12 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 9.746e-26 β”‚ β”‚ 2 β”‚ f(x)=2.7036e+05 β”‚ 0.00266 β”‚ 7.132e+04 1.99e+05 β”‚ β”‚ 3 β”‚ f(x)= 1239.8 β”‚ 2.67e-05 β”‚ 1218 21.82 β”‚ β”‚ 4 β”‚ f(x)= 1221.8 β”‚ 1.25e-05 β”‚ 1212 9.37 β”‚ β”‚ 5 β”‚ f(x)= 1178 β”‚ 9.84e-06 β”‚ 1167 11.12 β”‚ β”‚ 6 β”‚ f(x)= 1095.7 β”‚ 1.57e-05 β”‚ 1069 26.73 β”‚ β”‚ 7 β”‚ f(x)= 964.08 β”‚ 2.33e-05 β”‚ 909.3 54.77 β”‚ β”‚ 8 β”‚ f(x)= 763.52 β”‚ 2.36e-05 β”‚ 658.8 104.8 β”‚ β”‚ 9 β”‚ f(x)= 633.85 β”‚ 1.83e-05 β”‚ 524.7 109.1 β”‚ β”‚ 10 β”‚ f(x)= 463.52 β”‚ 2.55e-05 β”‚ 353.7 109.8 β”‚ β”‚ 11 β”‚ f(x)= 416.05 β”‚ 2.96e-05 β”‚ 310.7 105.4 β”‚ β”‚ 12 β”‚ f(x)= 405.46 β”‚ 1.38e-05 β”‚ 322.3 83.13 β”‚ β”‚ 13 β”‚ f(x)= 387.64 β”‚ 1.11e-05 β”‚ 314.5 73.1 β”‚ β”‚ 14 β”‚ f(x)= 360.09 β”‚ 1.57e-05 β”‚ 291.3 68.81 β”‚ β”‚ 15 β”‚ f(x)= 309.28 β”‚ 2.15e-05 β”‚ 253.5 55.77 β”‚ β”‚ 16 β”‚ f(x)= 273.31 β”‚ 3.89e-05 β”‚ 223.8 49.52 β”‚ β”‚ 17 β”‚ f(x)= 243.49 β”‚ 1.36e-05 β”‚ 224.4 19.05 β”‚ β”‚ 18 β”‚ f(x)= 233.58 β”‚ 7.35e-06 β”‚ 225.2 8.414 β”‚ β”‚ 19 β”‚ f(x)= 229.03 β”‚ 5.67e-06 β”‚ 224.8 4.212 β”‚ β”‚ 20 β”‚ f(x)= 227.95 β”‚ 9.66e-06 β”‚ 224.7 3.283 β”‚ β”‚ 21 β”‚ f(x)= 226.31 β”‚ 2.19e-06 β”‚ 224.6 1.735 β”‚ β”‚ 22 β”‚ f(x)= 226.05 β”‚ 1.31e-06 β”‚ 224.5 1.583 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.037071 Total Core solution elapsed time: 2.75956 Linear solver elapsed time: 2.35359 (85%) Total elapsed time: 0 hrs 0 min 2 sec ------------------------------------------------------------ alpha iteration: 31/31, alpha value: 1e-11 ------------------------------------------------------------ uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 1.945e-25 β”‚ β”‚ 2 β”‚ f(x)=4.6847e+05 β”‚ 0.00522 β”‚ 7.132e+04 3.972e+05 β”‚ β”‚ 3 β”‚ f(x)= 1261.5 β”‚ 5.43e-05 β”‚ 1218 43.54 β”‚ β”‚ 4 β”‚ f(x)= 1256.5 β”‚ 1.26e-05 β”‚ 1252 4.789 β”‚ β”‚ 5 β”‚ f(x)= 1248.1 β”‚ 8.31e-06 β”‚ 1244 3.961 β”‚ β”‚ 6 β”‚ f(x)= 1180.1 β”‚ 1.62e-05 β”‚ 1165 15.5 β”‚ β”‚ 7 β”‚ f(x)= 1118.9 β”‚ 2.31e-05 β”‚ 1089 29.63 β”‚ β”‚ 8 β”‚ f(x)= 1022.4 β”‚ 2.22e-05 β”‚ 971.7 50.7 β”‚ β”‚ 9 β”‚ f(x)= 810.58 β”‚ 5.55e-05 β”‚ 690.7 119.9 β”‚ β”‚ 10 β”‚ f(x)= 699.58 β”‚ 2.22e-05 β”‚ 592.2 107.4 β”‚ β”‚ 11 β”‚ f(x)= 636.15 β”‚ 1.96e-05 β”‚ 543.5 92.63 β”‚ β”‚ 12 β”‚ f(x)= 566.63 β”‚ 2.29e-05 β”‚ 473.1 93.57 β”‚ β”‚ 13 β”‚ f(x)= 484.12 β”‚ 5.7e-05 β”‚ 356 128.1 β”‚ β”‚ 14 β”‚ f(x)= 459.3 β”‚ 2.05e-05 β”‚ 368.1 91.21 β”‚ β”‚ 15 β”‚ f(x)= 430.26 β”‚ 1.96e-05 β”‚ 353.5 76.79 β”‚ β”‚ 16 β”‚ f(x)= 352.38 β”‚ 3.2e-05 β”‚ 294.1 58.27 β”‚ β”‚ 17 β”‚ f(x)= 271.51 β”‚ 3.78e-05 β”‚ 240.9 30.61 β”‚ β”‚ 18 β”‚ f(x)= 319.35 β”‚ 9.28e-05 β”‚ 243.6 75.75 β”‚ β”‚ 19 β”‚ f(x)= 248.24 β”‚ 3.35e-05 β”‚ 229.5 18.74 β”‚ β”‚ 20 β”‚ f(x)= 233.89 β”‚ 1.12e-05 β”‚ 228.4 5.526 β”‚ β”‚ 21 β”‚ f(x)= 230.82 β”‚ 5.51e-06 β”‚ 228 2.773 β”‚ β”‚ 22 β”‚ f(x)= 229.56 β”‚ 5.42e-06 β”‚ 227.8 1.782 β”‚ β”‚ 23 β”‚ f(x)= 228.6 β”‚ 7.33e-06 β”‚ 227.4 1.24 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.041952 Total Core solution elapsed time: 2.94858 Linear solver elapsed time: 2.5295 (86%) Total elapsed time: 0 hrs 0 min 2 sec INFO: the outlog will look better if only md.verbose.control is turned on uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 1293.7 β”‚ 5.16e-06 β”‚ 1294 7.779e-31 β”‚ β”‚ 2 β”‚ f(x)= 71317 β”‚ 0.000249 β”‚ 7.132e+04 1.589 β”‚ β”‚ 3 β”‚ f(x)= 1194.7 β”‚ 5.01e-06 β”‚ 1195 0.0003 β”‚ β”‚ 4 β”‚ f(x)= 2641.8 β”‚ 1.75e-05 β”‚ 2641 0.526 β”‚ β”‚ 5 β”‚ f(x)= 504.83 β”‚ 3.4e-06 β”‚ 504.8 0.03169 β”‚ β”‚ 6 β”‚ f(x)= 740.58 β”‚ 7.47e-06 β”‚ 740.2 0.4202 β”‚ β”‚ 7 β”‚ f(x)= 163.99 β”‚ 1.4e-06 β”‚ 163.9 0.1135 β”‚ β”‚ 8 β”‚ f(x)= 112.02 β”‚ 1.58e-06 β”‚ 111.8 0.2567 β”‚ β”‚ 9 β”‚ f(x)= 75.329 β”‚ 6.95e-07 β”‚ 75.1 0.2255 β”‚ β”‚ 10 β”‚ f(x)= 51.339 β”‚ 4.07e-07 β”‚ 51.09 0.249 β”‚ β”‚ 11 β”‚ f(x)= 26.737 β”‚ 2.73e-07 β”‚ 26.41 0.3316 β”‚ β”‚ 12 β”‚ f(x)= 15.506 β”‚ 1.64e-07 β”‚ 15.16 0.347 β”‚ β”‚ 13 β”‚ f(x)= 10.13 β”‚ 1.15e-07 β”‚ 9.793 0.3374 β”‚ β”‚ 14 β”‚ f(x)= 6.0393 β”‚ 9.7e-08 β”‚ 5.705 0.3343 β”‚ β”‚ 15 β”‚ f(x)= 2.7181 β”‚ 9.13e-08 β”‚ 2.372 0.3463 β”‚ β”‚ 16 β”‚ f(x)= 1.9229 β”‚ 3.89e-08 β”‚ 1.594 0.3294 β”‚ β”‚ 17 β”‚ f(x)= 1.548 β”‚ 3.95e-08 β”‚ 1.221 0.3274 β”‚ β”‚ 18 β”‚ f(x)= 1.0957 β”‚ 4.08e-08 β”‚ 0.7833 0.3124 β”‚ β”‚ 19 β”‚ f(x)= 0.72964 β”‚ 1.74e-08 β”‚ 0.4386 0.291 β”‚ β”‚ 20 β”‚ f(x)= 0.65174 β”‚ 1.27e-08 β”‚ 0.3776 0.2742 β”‚ β”‚ 21 β”‚ f(x)= 0.56945 β”‚ 1.37e-08 β”‚ 0.3102 0.2592 β”‚ β”‚ 22 β”‚ f(x)= 0.40776 β”‚ 1.27e-08 β”‚ 0.1807 0.227 β”‚ β”‚ 23 β”‚ f(x)= 0.35508 β”‚ 1.94e-08 β”‚ 0.1573 0.1977 β”‚ β”‚ 24 β”‚ f(x)= 0.28474 β”‚ 9.57e-09 β”‚ 0.09248 0.1923 β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded write lock file: FemModel initialization elapsed time: 0.03782 Total Core solution elapsed time: 3.90613 Linear solver elapsed time: 3.35679 (86%) Total elapsed time: 0 hrs 0 min 3 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Mesh +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Construction of a mesh from a given geometry Construction of a mesh from a given geometry Construction of a mesh from a given geometry Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 2567 Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 1572 Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 4616 SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Mesh +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Construction of a mesh from a given geometry Construction of a mesh from a given geometry Construction of a mesh from a given geometry Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 2567 Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 1572 Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 4616 SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Pig +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 2085 Loading SeaRISE data from NetCDF Interpolating surface and ice base Constructing thickness Interpolating temperatures Loading velocities data from NetCDF Set observed velocities Set Pressure Construct ice rheological properties Interpolating surface mass balance Set geothermal heat flux Construct basal friction parameters Set boundary conditions boundary conditions for stressbalance model: spc set as observed velocities no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 10690 β”‚ 51.3 β”‚ 1475 9214 3.271e-11β”‚ β”‚ 2 β”‚ f(x)= 3165.2 β”‚ 6.8 β”‚ 68.4 3097 5.082e-10β”‚ β”‚ 3 β”‚ f(x)= 2709.5 β”‚ 5.43 β”‚ 51.99 2658 6.208e-10β”‚ β”‚ 4 β”‚ f(x)= 1527 β”‚ 2.59 β”‚ 19.93 1507 1.367e-09β”‚ β”‚ 5 β”‚ f(x)= 948.76 β”‚ 1.43 β”‚ 8.873 939.9 2.507e-09β”‚ β”‚ 6 β”‚ f(x)= 538.96 β”‚ 0.704 β”‚ 3.362 535.6 4.587e-09β”‚ β”‚ 7 β”‚ f(x)= 320.85 β”‚ 0.352 β”‚ 1.654 319.2 7.502e-09β”‚ β”‚ 8 β”‚ f(x)= 198.61 β”‚ 0.154 β”‚ 1.284 197.3 1.178e-08β”‚ β”‚ 9 β”‚ f(x)= 157.58 β”‚ 0.319 β”‚ 1.336 156.2 1.612e-08β”‚ β”‚ 10 β”‚ f(x)= 134.5 β”‚ 0.116 β”‚ 1.478 133 1.929e-08β”‚ β”‚ 11 β”‚ f(x)= 129.99 β”‚ 0.0779 β”‚ 1.476 128.5 1.983e-08β”‚ β”‚ 12 β”‚ f(x)= 122.97 β”‚ 0.0862 β”‚ 1.467 121.5 2.173e-08β”‚ β”‚ 13 β”‚ f(x)= 119.93 β”‚ 0.0654 β”‚ 1.461 118.5 2.225e-08β”‚ β”‚ 14 β”‚ f(x)= 114.49 β”‚ 0.0559 β”‚ 1.408 113.1 2.332e-08β”‚ β”‚ 15 β”‚ f(x)= 111.94 β”‚ 0.0419 β”‚ 1.394 110.5 2.418e-08β”‚ β”‚ 16 β”‚ f(x)= 110.08 β”‚ 0.0324 β”‚ 1.399 108.7 2.511e-08β”‚ β”‚ 17 β”‚ f(x)= 106.57 β”‚ 0.0347 β”‚ 1.392 105.2 2.754e-08β”‚ β”‚ 18 β”‚ f(x)= 104.78 β”‚ 0.0645 β”‚ 1.351 103.4 3.038e-08β”‚ β”‚ 19 β”‚ f(x)= 103.26 β”‚ 0.0712 β”‚ 1.319 101.9 3.056e-08β”‚ β”‚ 20 β”‚ f(x)= 103.49 β”‚ 0.0697 β”‚ 1.293 102.2 3.191e-08β”‚ β”‚ 21 β”‚ f(x)= 102.85 β”‚ 0.0361 β”‚ 1.296 101.6 3.106e-08β”‚ β”‚ 22 β”‚ f(x)= 102.51 β”‚ 0.0854 β”‚ 1.293 101.2 3.086e-08β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.100159 Total Core solution elapsed time: 5.51419 Linear solver elapsed time: 3.48825 (63%) Total elapsed time: 0 hrs 0 min 5 sec Extruding mesh Using HO Ice Flow Model uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.106637 Total Core solution elapsed time: 1.90988 Linear solver elapsed time: 1.13675 (60%) Total elapsed time: 0 hrs 0 min 2 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-Pig +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded Construction of a mesh from a given geometry Anisotropic mesh adaptation new number of triangles = 2085 Loading SeaRISE data from NetCDF Interpolating surface and ice base Constructing thickness Interpolating temperatures Loading velocities data from NetCDF Set observed velocities Set Pressure Construct ice rheological properties Interpolating surface mass balance Set geothermal heat flux Construct basal friction parameters Set boundary conditions boundary conditions for stressbalance model: spc set as observed velocities no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: Initialize M1QN3 parameters Computing initial solution β”Œβ”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”¬β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β” β”‚Iterβ”‚ Cost function β”‚ Grad. norm β”‚ List of contributions β”‚ β”œβ”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”Όβ”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€ β”‚ 1 β”‚ f(x)= 10690 β”‚ 51.3 β”‚ 1475 9214 3.271e-11β”‚ β”‚ 2 β”‚ f(x)= 3165.2 β”‚ 6.8 β”‚ 68.4 3097 5.082e-10β”‚ β”‚ 3 β”‚ f(x)= 2709.5 β”‚ 5.43 β”‚ 51.99 2658 6.208e-10β”‚ β”‚ 4 β”‚ f(x)= 1527 β”‚ 2.59 β”‚ 19.93 1507 1.367e-09β”‚ β”‚ 5 β”‚ f(x)= 948.76 β”‚ 1.43 β”‚ 8.873 939.9 2.507e-09β”‚ β”‚ 6 β”‚ f(x)= 538.96 β”‚ 0.704 β”‚ 3.362 535.6 4.587e-09β”‚ β”‚ 7 β”‚ f(x)= 320.85 β”‚ 0.352 β”‚ 1.654 319.2 7.502e-09β”‚ β”‚ 8 β”‚ f(x)= 198.61 β”‚ 0.154 β”‚ 1.284 197.3 1.178e-08β”‚ β”‚ 9 β”‚ f(x)= 157.58 β”‚ 0.319 β”‚ 1.336 156.2 1.612e-08β”‚ β”‚ 10 β”‚ f(x)= 134.5 β”‚ 0.116 β”‚ 1.478 133 1.929e-08β”‚ β”‚ 11 β”‚ f(x)= 129.99 β”‚ 0.0779 β”‚ 1.476 128.5 1.983e-08β”‚ β”‚ 12 β”‚ f(x)= 122.97 β”‚ 0.0862 β”‚ 1.467 121.5 2.173e-08β”‚ β”‚ 13 β”‚ f(x)= 119.93 β”‚ 0.0654 β”‚ 1.461 118.5 2.225e-08β”‚ β”‚ 14 β”‚ f(x)= 114.49 β”‚ 0.0559 β”‚ 1.408 113.1 2.332e-08β”‚ β”‚ 15 β”‚ f(x)= 111.94 β”‚ 0.0419 β”‚ 1.394 110.5 2.418e-08β”‚ β”‚ 16 β”‚ f(x)= 110.08 β”‚ 0.0324 β”‚ 1.399 108.7 2.511e-08β”‚ β”‚ 17 β”‚ f(x)= 106.57 β”‚ 0.0347 β”‚ 1.392 105.2 2.754e-08β”‚ β”‚ 18 β”‚ f(x)= 104.78 β”‚ 0.0645 β”‚ 1.351 103.4 3.038e-08β”‚ β”‚ 19 β”‚ f(x)= 103.26 β”‚ 0.0712 β”‚ 1.319 101.9 3.056e-08β”‚ β”‚ 20 β”‚ f(x)= 103.49 β”‚ 0.0697 β”‚ 1.293 102.2 3.191e-08β”‚ β”‚ 21 β”‚ f(x)= 102.85 β”‚ 0.0361 β”‚ 1.296 101.6 3.106e-08β”‚ β”‚ 22 β”‚ f(x)= 102.51 β”‚ 0.0854 β”‚ 1.293 101.2 3.086e-08β”‚ β””β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”΄β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”€β”˜ Maximum number of iterations exceeded preparing final solution write lock file: FemModel initialization elapsed time: 0.100159 Total Core solution elapsed time: 5.51419 Linear solver elapsed time: 3.48825 (63%) Total elapsed time: 0 hrs 0 min 5 sec Extruding mesh Using HO Ice Flow Model uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.106637 Total Core solution elapsed time: 1.90988 Linear solver elapsed time: 1.13675 (60%) Total elapsed time: 0 hrs 0 min 2 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-PigSensitivity +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.055683 Total Core solution elapsed time: 8.59369 Linear solver elapsed time: 5.03801 (59%) Total elapsed time: 0 hrs 0 min 8 sec uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.057056 Total Core solution elapsed time: 8.60895 Linear solver elapsed time: 5.0917 (59%) Total elapsed time: 0 hrs 0 min 8 sec NOTE: using observed velocities to create constraints along new boundary boundary conditions for stressbalance model: spc set as observed velocities uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.058886 Total Core solution elapsed time: 8.66589 Linear solver elapsed time: 5.15633 (60%) Total elapsed time: 0 hrs 0 min 8 sec uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.062329 Total Core solution elapsed time: 8.56677 Linear solver elapsed time: 5.07955 (59%) Total elapsed time: 0 hrs 0 min 8 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-PigSensitivity +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.055683 Total Core solution elapsed time: 8.59369 Linear solver elapsed time: 5.03801 (59%) Total elapsed time: 0 hrs 0 min 8 sec uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.057056 Total Core solution elapsed time: 8.60895 Linear solver elapsed time: 5.0917 (59%) Total elapsed time: 0 hrs 0 min 8 sec NOTE: using observed velocities to create constraints along new boundary boundary conditions for stressbalance model: spc set as observed velocities uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.058886 Total Core solution elapsed time: 8.66589 Linear solver elapsed time: 5.15633 (60%) Total elapsed time: 0 hrs 0 min 8 sec uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: write lock file: FemModel initialization elapsed time: 0.062329 Total Core solution elapsed time: 8.56677 Linear solver elapsed time: 5.07955 (59%) Total elapsed time: 0 hrs 0 min 8 sec SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-SquareIceShelf +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag initial velocity creating flow law parameter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.037094 Total Core solution elapsed time: 0.216352 Linear solver elapsed time: 0.189335 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster SUCCESS +++ exit code: 0 +++ error: 0 +++ Running case: Example-SquareIceShelf +++ working dir: /Users/jenkins/workspace/macOS-Intel-Examples/nightlylog < M A T L A B (R) > Copyright 1984-2023 The MathWorks, Inc. R2023b Update 6 (23.2.0.2485118) 64-bit (maci64) December 28, 2023 To get started, type doc. For product information, visit www.mathworks.com. ISSM development path correctly loaded creating thickness creating drag initial velocity creating flow law parameter creating boundary conditions boundary conditions for stressbalance model: spc set as zero no smb.mass_balance specified: values set as zero no basalforcings.groundedice_melting_rate specified: values set as zero no basalforcings.floatingice_melting_rate specified: values set as zero no balancethickness.thickening_rate specified: values set as zero no thermal boundary conditions created: no observed temperature found checking model consistency marshalling file Square.bin uploading input file and queuing script launching solution sequence on remote cluster Ice-sheet and Sea-level System Model (ISSM) version 4.24 (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/) call computational core: computing new velocity write lock file: FemModel initialization elapsed time: 0.037094 Total Core solution elapsed time: 0.216352 Linear solver elapsed time: 0.189335 (88%) Total elapsed time: 0 hrs 0 min 0 sec loading results from cluster SUCCESS +++ exit code: 0 +++ error: 0 Recording test results Finished: SUCCESS