Started by GitHub push by hseroussi
Running as SYSTEM
Building remotely on <a href='/jenkins/computer/macOS-Silicon/' class='jenkins-table__link model-link model-link--float'>macOS-Silicon</a> (mac) in workspace /Users/jenkins/workspace/macOS-Silicon-Examples
The recommended git tool is: NONE
 &gt; git rev-parse --resolve-git-dir /Users/jenkins/workspace/macOS-Silicon-Examples/.git # timeout=10
Fetching changes from the remote Git repository
 &gt; git config remote.origin.url git@github.com:ISSMteam/ISSM.git # timeout=10
Fetching upstream changes from git@github.com:ISSMteam/ISSM.git
 &gt; git --version # timeout=10
 &gt; git --version # 'git version 2.39.5 (Apple Git-154)'
using GIT_SSH to set credentials GitHub Deploy Key - ISSMteam/ISSM - Jenkins
Verifying host key using known hosts file
 &gt; git fetch --tags --force --progress -- git@github.com:ISSMteam/ISSM.git +refs/heads/*:refs/remotes/origin/* # timeout=10
 &gt; git rev-parse refs/remotes/origin/main^{commit} # timeout=10
Checking out Revision 2dce2c982588e61eb801c5bb3ff3d065497cdcac (refs/remotes/origin/main)
 &gt; git config core.sparsecheckout # timeout=10
 &gt; git checkout -f 2dce2c982588e61eb801c5bb3ff3d065497cdcac # timeout=10
Commit message: "FIX: need new nomelt_under_lakes for vertical analysis"
 &gt; git rev-list --no-walk e902574ef26f9ccb4b3ea48cd0e58e98e9eda1d7 # timeout=10
[macOS-Silicon-Examples] $ /bin/bash /var/folders/mx/mr9ch0gx2qq_tty2dtgrjcn40000gp/T/jenkins12666534657638185346.sh
Cleaning up execution directory
======================================================
             Determining installation type            
======================================================
   
List of changed files
---------------------
src/c/analyses/StressbalanceVerticalAnalysis.cpp
   
-- checking for changed externalpackages... no
-- checking for reconfiguration... no
-- checking for recompilation... yes
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       Skipping autotools                          
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       Skipping cmake                          
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       Skipping petsc                          
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       Skipping boost                          
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       Skipping dakota                          
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       Skipping chaco                          
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       Skipping curl                          
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       Skipping hdf5                          
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       Skipping netcdf                          
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       Skipping proj                          
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       Skipping gdal                          
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       Skipping gshhg                          
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       Skipping gmt                          
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       Skipping gmsh                          
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       Skipping triangle                          
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       Skipping shell2junit                          
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                    Compiling ISSM                    
======================================================
Making with 4 CPUs
/Library/Developer/CommandLineTools/usr/bin/make  all-recursive
Making all in src
Making all in c
  CXX      analyses/libISSMCore_la-StressbalanceVerticalAnalysis.lo
  CXXLD    libISSMCore.la
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libmpi.dylib, ignoring unexpected dylib file
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libmpicxx.dylib, ignoring unexpected dylib file
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libpmpi.dylib, ignoring unexpected dylib file
ld: warning: -undefined suppress is deprecated
  CXXLD    libISSMModules.la
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libmpicxx.dylib, ignoring unexpected dylib file
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libmpi.dylib, ignoring unexpected dylib file
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libpmpi.dylib, ignoring unexpected dylib file
ld: warning: -undefined suppress is deprecated
  CXXLD    issm.exe
  CXXLD    issm_slc.exe
  CXXLD    kriging.exe
  CXXLD    issm_dakota.exe
ld: warning: -bind_at_load is deprecated on macOS
ld: warning: -bind_at_load is deprecated on macOS
ld: warning: -bind_at_load is deprecated on macOS
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    issm_post.exe
ld: warning: -bind_at_load is deprecated on macOS
Making all in m
make[3]: Nothing to be done for `all'.
Making all in wrappers
Making all in matlab
  CXXLD    libISSMMatlab.la
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libmpicxx.dylib, ignoring unexpected dylib file
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libmpi.dylib, ignoring unexpected dylib file
ld: warning: /Users/jenkins/workspace/macOS-Silicon-Examples/externalpackages/petsc/install/lib/libpmpi.dylib, ignoring unexpected dylib file
ld: warning: -undefined suppress is deprecated
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
  CXXLD    BamgMesher_matlab.la
  CXXLD    BamgConvertMesh_matlab.la
  CXXLD    BamgTriangulate_matlab.la
  CXXLD    ContourToMesh_matlab.la
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
  CXXLD    ContourToNodes_matlab.la
  CXXLD    DistanceToMaskBoundary_matlab.la
  CXXLD    ElementConnectivity_matlab.la
  CXXLD    ExpSimplify_matlab.la
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
  CXXLD    ExpToLevelSet_matlab.la
  CXXLD    InterpFromGridToMesh_matlab.la
  CXXLD    InterpFromMesh2d_matlab.la
  CXXLD    InterpFromMeshToGrid_matlab.la
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
  CXXLD    InterpFromMeshToMesh2d_matlab.la
  CXXLD    InterpFromMeshToMesh3d_matlab.la
  CXXLD    IssmConfig_matlab.la
  CXXLD    MeshPartition_matlab.la
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
  CXXLD    MeshProfileIntersection_matlab.la
  CXXLD    NodeConnectivity_matlab.la
  CXXLD    PointCloudFindNeighbors_matlab.la
  CXXLD    ProcessRifts_matlab.la
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
  CXXLD    PropagateFlagsFromConnectivity_matlab.la
  CXXLD    Triangle_matlab.la
  CXXLD    Chaco_matlab.la
  CXXLD    Kriging_matlab.la
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
  CXXLD    CoordTransform_matlab.la
ld: warning: -dylib_file is deprecated. Use -F or -L to control where indirect dylibs are found
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: -bind_at_load is deprecated on macOS
  CXXLD    issm_slc.exe
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    kriging.exe
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    issm_dakota.exe
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    issm_post.exe
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    issm.exe
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    issm_slc.exe
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    kriging.exe
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    issm_dakota.exe
ld: warning: -bind_at_load is deprecated on macOS
  CXXLD    issm_post.exe
ld: warning: -bind_at_load is deprecated on macOS
 ../.././aux-config/install-sh -c -d '/Users/jenkins/workspace/macOS-Silicon-Examples/lib'
 /bin/sh ../../libtool   --mode=install /usr/bin/install -c   libISSMCore.la libISSMOverload.la libISSMModules.la '/Users/jenkins/workspace/macOS-Silicon-Examples/lib'
libtool: install: /usr/bin/install -c .libs/libISSMCore.dylib /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMCore.dylib
libtool: install: /usr/bin/install -c .libs/libISSMCore.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMCore.la
libtool: install: /usr/bin/install -c .libs/libISSMOverload.dylib /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMOverload.dylib
libtool: install: /usr/bin/install -c .libs/libISSMOverload.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMOverload.la
libtool: install: /usr/bin/install -c .libs/libISSMModules.dylib /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMModules.dylib
libtool: install: /usr/bin/install -c .libs/libISSMModules.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMModules.la
 ../.././aux-config/install-sh -c -d '/Users/jenkins/workspace/macOS-Silicon-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-Silicon-Examples/bin'
libtool: install: /usr/bin/install -c .libs/issm.exe /Users/jenkins/workspace/macOS-Silicon-Examples/bin/issm.exe
libtool: install: /usr/bin/install -c .libs/issm_slc.exe /Users/jenkins/workspace/macOS-Silicon-Examples/bin/issm_slc.exe
libtool: install: /usr/bin/install -c .libs/kriging.exe /Users/jenkins/workspace/macOS-Silicon-Examples/bin/kriging.exe
libtool: install: /usr/bin/install -c .libs/issm_dakota.exe /Users/jenkins/workspace/macOS-Silicon-Examples/bin/issm_dakota.exe
libtool: install: /usr/bin/install -c .libs/issm_post.exe /Users/jenkins/workspace/macOS-Silicon-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-Silicon-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-Silicon-Examples/lib'
 /bin/sh ../../../libtool   --mode=install /usr/bin/install -c   libISSMMatlab.la libISSMApi_matlab.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 InterpFromGrid_matlab.la InterpFromGridToMesh_matlab.la InterpFromMesh2d_matlab.la InterpFromMeshToGrid_matlab.la InterpFromMeshToMesh2d_matlab.la InterpFromMeshToMesh3d_matlab.la IssmConfig_matlab.la MeshPartition_matlab.la MeshProfileIntersection_matlab.la NodeConnectivity_matlab.la PointCloudFindNeighbors_matlab.la ProcessRifts_matlab.la PropagateFlagsFromConnectivity_matlab.la Triangle_matlab.la Chaco_matlab.la Kriging_matlab.la CoordTransform_matlab.la '/Users/jenkins/workspace/macOS-Silicon-Examples/lib'
libtool: install: /usr/bin/install -c .libs/libISSMMatlab.dylib /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMMatlab.dylib
libtool: install: /usr/bin/install -c .libs/libISSMMatlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMMatlab.la
libtool: install: /usr/bin/install -c .libs/libISSMApi_matlab.dylib /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMApi_matlab.dylib
libtool: install: /usr/bin/install -c .libs/libISSMApi_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/libISSMApi_matlab.la
libtool: install: /usr/bin/install -c .libs/BamgConvertMesh_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/BamgConvertMesh_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/BamgConvertMesh_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/BamgConvertMesh_matlab.la
libtool: install: /usr/bin/install -c .libs/BamgMesher_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/BamgMesher_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/BamgMesher_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/BamgMesher_matlab.la
libtool: install: /usr/bin/install -c .libs/BamgTriangulate_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/BamgTriangulate_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/BamgTriangulate_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/BamgTriangulate_matlab.la
libtool: install: /usr/bin/install -c .libs/ContourToMesh_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ContourToMesh_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/ContourToMesh_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ContourToMesh_matlab.la
libtool: install: /usr/bin/install -c .libs/ContourToNodes_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ContourToNodes_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/ContourToNodes_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ContourToNodes_matlab.la
libtool: install: /usr/bin/install -c .libs/DistanceToMaskBoundary_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/DistanceToMaskBoundary_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/DistanceToMaskBoundary_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/DistanceToMaskBoundary_matlab.la
libtool: install: /usr/bin/install -c .libs/ElementConnectivity_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ElementConnectivity_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/ElementConnectivity_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ElementConnectivity_matlab.la
libtool: install: /usr/bin/install -c .libs/ExpSimplify_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ExpSimplify_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/ExpSimplify_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ExpSimplify_matlab.la
libtool: install: /usr/bin/install -c .libs/ExpToLevelSet_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ExpToLevelSet_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/ExpToLevelSet_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ExpToLevelSet_matlab.la
libtool: install: /usr/bin/install -c .libs/InterpFromGrid_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromGrid_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/InterpFromGrid_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromGrid_matlab.la
libtool: install: /usr/bin/install -c .libs/InterpFromGridToMesh_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromGridToMesh_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/InterpFromGridToMesh_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromGridToMesh_matlab.la
libtool: install: /usr/bin/install -c .libs/InterpFromMesh2d_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromMesh2d_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/InterpFromMesh2d_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromMesh2d_matlab.la
libtool: install: /usr/bin/install -c .libs/InterpFromMeshToGrid_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromMeshToGrid_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/InterpFromMeshToGrid_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromMeshToGrid_matlab.la
libtool: install: /usr/bin/install -c .libs/InterpFromMeshToMesh2d_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromMeshToMesh2d_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/InterpFromMeshToMesh2d_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromMeshToMesh2d_matlab.la
libtool: install: /usr/bin/install -c .libs/InterpFromMeshToMesh3d_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromMeshToMesh3d_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/InterpFromMeshToMesh3d_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/InterpFromMeshToMesh3d_matlab.la
libtool: install: /usr/bin/install -c .libs/IssmConfig_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/IssmConfig_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/IssmConfig_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/IssmConfig_matlab.la
libtool: install: /usr/bin/install -c .libs/MeshPartition_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/MeshPartition_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/MeshPartition_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/MeshPartition_matlab.la
libtool: install: /usr/bin/install -c .libs/MeshProfileIntersection_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/MeshProfileIntersection_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/MeshProfileIntersection_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/MeshProfileIntersection_matlab.la
libtool: install: /usr/bin/install -c .libs/NodeConnectivity_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/NodeConnectivity_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/NodeConnectivity_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/NodeConnectivity_matlab.la
libtool: install: /usr/bin/install -c .libs/PointCloudFindNeighbors_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/PointCloudFindNeighbors_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/PointCloudFindNeighbors_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/PointCloudFindNeighbors_matlab.la
libtool: install: /usr/bin/install -c .libs/ProcessRifts_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ProcessRifts_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/ProcessRifts_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/ProcessRifts_matlab.la
libtool: install: /usr/bin/install -c .libs/PropagateFlagsFromConnectivity_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/PropagateFlagsFromConnectivity_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/PropagateFlagsFromConnectivity_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/PropagateFlagsFromConnectivity_matlab.la
libtool: install: /usr/bin/install -c .libs/Triangle_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/Triangle_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/Triangle_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/Triangle_matlab.la
libtool: install: /usr/bin/install -c .libs/Chaco_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/Chaco_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/Chaco_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/Chaco_matlab.la
libtool: install: /usr/bin/install -c .libs/Kriging_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/Kriging_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/Kriging_matlab.lai /Users/jenkins/workspace/macOS-Silicon-Examples/lib/Kriging_matlab.la
libtool: install: /usr/bin/install -c .libs/CoordTransform_matlab.mexmaca64 /Users/jenkins/workspace/macOS-Silicon-Examples/lib/CoordTransform_matlab.mexmaca64
libtool: install: /usr/bin/install -c .libs/CoordTransform_matlab.lai /Users/jenkins/workspace/macOS-Silicon-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
WARNING: package sun.awt.X11 not in java.desktop
WARNING: package sun.awt.X11 not in java.desktop

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 /Users/jenkins/workspace/macOS-Silicon-Examples//execution/mismip-06-30-2026-05-11-55-60851/mismip.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
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

[0] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>


[1] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[1] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

loading results from cluster
[Warning: Could not copy
/Users/jenkins/workspace/macOS-Silicon-Examples//execution/mismip-06-30-2026-05-11-55-60851//mismip.outbin] 
[&gt; In issmscpin (line 22)
In generic/Download (line 328)
In loadresultsfromcluster (line 45)
In solve (line 210)
In runme (line 65)] 
Error using loadresultsfromdisk

=========================================================================
   Binary file mismip.outbin not found

   This typically results from an error encountered during the simulation
   Please check for error messages above or in the outlog
=========================================================================


Error in loadresultsfromcluster (line 48)
md=loadresultsfromdisk(md,[md.miscellaneous.name '.outbin']);

Error in solve (line 210)
md=loadresultsfromcluster(md);

Error in runme (line 65)
	md=solve(md,'Transient');FAILURE
Directory contains datasets only; no example to run.
Testing example: EsaGRACE
WARNING: package sun.awt.X11 not in java.desktop
WARNING: package sun.awt.X11 not in java.desktop

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 4.14.2-git-0cebcd9, 1 node, max. 1 thread]
Info    : Started on Tue Jun 30 05:12:05 2026
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    : [ 60%] 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 0.00112888s, CPU 0.000584s)
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    : [ 60%] 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 9.35672s, CPU 9.2723s)
Info    : 7665 nodes 15739 elements
Info    : Writing 'sphere.msh'...
Info    : Done writing 'sphere.msh'
Info    : Stopped on Tue Jun 30 05:12:14 2026 (From start: Wall 9.38724s, CPU 9.30082s)
gmtmask: num vertices 7664
gmtmask: done
   Step 2: Define loads in meters of ice height equivalent
1 of 1 months done!
   Step 3: Parameterization
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In runme (line 65)] 
   Step 4: Solve Esa solver
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/EsaGRACE-06-30-2026-05-12-18-62643/EsaGRACE.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:   0.101616
   Total Core solution elapsed time:       3.85277
   Linear solver elapsed time:             0       (0%)

   Total elapsed time: 0 hrs 0 min 3 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
WARNING: package sun.awt.X11 not in java.desktop
WARNING: package sun.awt.X11 not in java.desktop

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 = 4149
   Step 3: Define loads
   Step 4: Parameterization
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In runme (line 73)] 
   Step 5: Solve Esa solver
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/EsaWahr-06-30-2026-05-12-40-63566/EsaWahr.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:   0.057034
   Total Core solution elapsed time:       0.462106
   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
WARNING: package sun.awt.X11 not in java.desktop
WARNING: package sun.awt.X11 not in java.desktop

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 = 6364
   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
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In TemporaryParameterFile64101 (line 54)
In parameterize (line 29)
In runme (line 41)] 
   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 /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-12-54-64101/SeaRISEgreenland.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
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) =     57224.29  |       7295.477     49928.81  4.50625e-32
 x =         1 | f(x) =     48746.04  |       3599.447     45146.54   0.05279271
====================== step 2/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     48742.38  |       3596.285     45146.05   0.05279271
 x =         1 | f(x) =     45647.91  |       2718.953     42928.83    0.1197843
====================== step 3/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     45671.31  |       2742.747     42928.44    0.1197843
 x =         1 | f(x) =     45232.67  |       2698.813     42533.72    0.1369708
 x =  0.381966 | f(x) =        45379  |       2603.929     42774.95    0.1236372
 x =  0.618034 | f(x) =      45330.6  |       2648.425     42682.04    0.1276943
 x =  0.763932 | f(x) =     45296.76  |       2671.065     42625.56     0.130842
 x =  0.854102 | f(x) =     45276.86  |       2686.467     42590.26    0.1330319
 x =   0.90983 | f(x) =     45264.68  |       2696.086     42568.46    0.1344787
====================== step 4/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     45240.36  |       2706.494     42533.73    0.1369708
 x =         1 | f(x) =     43859.84  |       2340.536     41519.12    0.1890024
====================== step 5/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     43852.25  |       2334.282     41517.78    0.1890024
 x =         1 | f(x) =     42920.97  |       2083.961     40836.77    0.2369752
====================== step 6/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      42920.9  |       2084.991     40835.67    0.2369752
 x =         1 | f(x) =     40460.25  |       1899.183     38560.58    0.4824762
====================== step 7/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     40534.33  |        1973.32     38560.53    0.4824762
 x =         1 | f(x) =     40130.78  |       1639.919     38490.36    0.4956304
 x =  0.381966 | f(x) =     40164.85  |        1630.76      38533.6    0.4858795
 x =  0.618034 | f(x) =      40134.1  |       1616.635     38516.98    0.4889848
 x =  0.763932 | f(x) =     40129.15  |       1621.843     38506.82    0.4912867
 x =  0.758239 | f(x) =     40130.73  |       1622.982     38507.26    0.4911914
 x =  0.854102 | f(x) =     40130.59  |       1629.589      38500.5    0.4928555
====================== step 8/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     40131.86  |       1624.501     38506.87    0.4912867
 x =         1 | f(x) =     39672.04  |       1494.393      38177.1    0.5404335
====================== step 9/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     39669.91  |       1492.656     38176.71    0.5404335
 x =         1 | f(x) =     39036.52  |       1397.035     37638.85    0.6393392
====================== step 10/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      39035.7  |       1396.818     37638.25    0.6393392
 x =         1 | f(x) =     38160.75  |       1434.238     36725.68    0.8373965
====================== step 11/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     38179.53  |       1453.779     36724.91    0.8373965
 x =         1 | f(x) =     38018.08  |       1362.899     36654.32    0.8555446
 x =  0.381966 | f(x) =      38006.1  |       1307.638     36697.62    0.8434183
 x =  0.618034 | f(x) =     37998.93  |       1317.255     36680.83    0.8476997
 x =  0.763932 | f(x) =     38004.57  |       1333.041     36670.68    0.8505411
 x =  0.584017 | f(x) =     38003.78  |       1319.576     36683.36    0.8470667
 x =  0.671791 | f(x) =     38003.38  |       1325.402     36677.13    0.8487227
====================== step 12/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     38003.23  |       1321.449     36680.93    0.8476997
 x =         1 | f(x) =     37727.49  |       1293.449     36433.13    0.9076876
 x =  0.381966 | f(x) =     37869.24  |       1283.536     36584.84    0.8699897
 x =  0.618034 | f(x) =     37802.75  |       1274.511     36527.36    0.8841192
 x =  0.763932 | f(x) =     37768.11  |       1276.053     36491.17    0.8930184
 x =  0.854102 | f(x) =     37752.74  |       1283.039     36468.81    0.8985822
 x =   0.90983 | f(x) =     37746.89  |       1290.972     36455.01    0.9020451
====================== step 13/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37738.53  |       1304.491     36433.13    0.9076876
 x =         1 | f(x) =     37608.99  |       1280.695     36327.36    0.9346133
 x =  0.381966 | f(x) =     37641.46  |       1248.416     36392.13    0.9173317
 x =  0.618034 | f(x) =     37620.76  |        1252.51     36367.33     0.923688
 x =  0.763932 | f(x) =     37614.37  |       1261.422     36352.02    0.9277676
 x =  0.881827 | f(x) =     37612.66  |       1272.045     36339.69    0.9311486
 x =  0.887712 | f(x) =     37615.16  |       1275.182     36339.04    0.9313194
====================== step 14/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37613.46  |       1285.195     36327.33    0.9346133
 x =         1 | f(x) =     37355.17  |       1208.508     36145.68    0.9832389
 x =  0.381966 | f(x) =     37500.75  |       1242.849     36256.94    0.9526516
 x =  0.618034 | f(x) =     37442.28  |       1226.401     36214.91    0.9641313
 x =  0.763932 | f(x) =      37405.8  |       1216.483     36188.34    0.9713527
 x =  0.854102 | f(x) =     37384.97  |       1212.095      36171.9    0.9758642
 x =   0.90983 | f(x) =     37373.35  |       1210.619     36161.75    0.9786708
====================== step 15/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37356.61  |       1209.966     36145.66    0.9832389
 x =         1 | f(x) =     36613.19  |       1249.983     35361.98     1.224813
====================== step 16/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     36623.88  |        1261.34     35361.31     1.224813
 x =         1 | f(x) =     36401.35  |       1164.393      35235.7     1.266538
 x =  0.381966 | f(x) =     36489.07  |       1175.562     35312.27     1.239401
 x =  0.618034 | f(x) =     36453.02  |       1168.245     35283.53     1.249251
 x =  0.763932 | f(x) =     36430.52  |       1164.073     35265.19     1.255657
 x =  0.854102 | f(x) =     36417.31  |       1162.253      35253.8     1.259738
 x =   0.90983 | f(x) =     36409.76  |       1161.742     35246.75     1.262306
====================== step 17/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     36399.92  |       1162.988     35235.67     1.266538
 x =         1 | f(x) =     36081.57  |       1104.425     34975.79     1.355818
 x =  0.381966 | f(x) =     36265.44  |       1130.355     35133.78     1.300359
 x =  0.618034 | f(x) =     36193.78  |        1118.27     35074.19     1.321301
 x =  0.763932 | f(x) =     36149.64  |       1111.819     35036.49     1.334295
 x =  0.854102 | f(x) =     36123.81  |       1109.421     35013.05     1.342444
 x =   0.90983 | f(x) =      36108.8  |       1108.926     34998.53     1.347525
====================== step 18/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      36085.3  |        1108.29     34975.65     1.355818
 x =         1 | f(x) =     35861.04  |       1112.461     34747.14     1.439384
 x =  0.381966 | f(x) =     35973.47  |       1088.485      34883.6      1.38831
 x =  0.618034 | f(x) =     35923.54  |       1091.585     34830.55     1.408119
 x =  0.763932 | f(x) =     35898.04  |       1098.771     34797.85     1.420145
 x =  0.854102 | f(x) =     35885.14  |       1105.568     34778.14     1.427447
 x =   0.90983 | f(x) =     35878.15  |       1110.654     34766.06     1.431986
====================== step 19/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      35865.5  |       1117.088     34746.98     1.439384
 x =         1 | f(x) =     35691.97  |       1044.544     34645.95     1.478277
 x =  0.381966 | f(x) =     35777.36  |       1070.548     34705.35     1.454006
 x =  0.618034 | f(x) =     35745.64  |       1059.757     34684.42     1.463117
 x =  0.763932 | f(x) =     35722.42  |       1051.185     34669.77     1.468843
 x =  0.854102 | f(x) =     35708.98  |       1046.983     34660.53      1.47242
 x =   0.90983 | f(x) =     35701.67  |       1045.394      34654.8     1.474647
====================== step 20/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35692.21  |        1044.82     34645.91     1.478277
 x =         1 | f(x) =     35217.83  |       1046.743     34169.41     1.677241
====================== step 21/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35220.09  |       1049.391     34169.02     1.677241
 x =         1 | f(x) =     35067.96  |       992.6728     34073.57     1.717358
 x =  0.381966 | f(x) =     35136.92  |        1009.81     34125.41     1.692094
 x =  0.618034 | f(x) =     35110.19  |       1001.714     34106.77     1.701565
 x =  0.763932 | f(x) =     35091.26  |       996.0861     34093.46     1.707529
 x =  0.854102 | f(x) =     35081.08  |       994.0872     34085.28     1.711257
 x =   0.90983 | f(x) =      35076.1  |       994.0574     34080.33     1.713578
====================== step 22/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35069.87  |        995.247     34072.91     1.717358
 x =         1 | f(x) =     34937.84  |       1020.937        33915      1.90029
 x =  0.381966 | f(x) =     34962.83  |       987.2311     33973.82     1.785839
 x =  0.618034 | f(x) =     34923.39  |       993.1615      33928.4     1.830988
 x =  0.763932 | f(x) =     34933.83  |       1002.578     33929.39     1.858955
 x =   0.63372 | f(x) =     34921.24  |       995.8724     33923.53     1.834066
 x =  0.668711 | f(x) =     34927.57  |       996.8291      33928.9     1.840966
====================== step 23/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      34922.2  |       995.6929     33924.67     1.834066
 x =         1 | f(x) =     34842.48  |       997.9163     33842.73     1.833677
 x =  0.381966 | f(x) =     34837.03  |       968.5171     33866.68     1.832157
 x =  0.618034 | f(x) =     34790.82  |       967.7175     33821.27      1.83186
 x =  0.763932 | f(x) =     34805.49  |       976.4819     33827.17     1.832178
 x =  0.626188 | f(x) =     34792.58  |       969.2797     33821.47     1.831865
 x =  0.527864 | f(x) =     34811.48  |       967.3939     33842.26     1.831895
====================== step 24/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34790.11  |       967.7752      33820.5      1.83186
 x =         1 | f(x) =     34566.78  |       1052.886      33511.9       2.0022
 x =  0.381966 | f(x) =     34665.54  |       983.5118     33680.14     1.895133
 x =  0.618034 | f(x) =     34623.62  |       1007.223     33614.46     1.935621
 x =  0.763932 | f(x) =     34602.07  |       1024.178     33575.93     1.960962
 x =  0.854102 | f(x) =     34591.82  |       1037.857     33551.98     1.976714
 x =   0.90983 | f(x) =     34586.29  |       1047.223     33537.09      1.98636
====================== step 25/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      34574.1  |       1059.303     33512.79       2.0022
 x =         1 | f(x) =     34405.89  |       969.5796     33434.27     2.039691
 x =  0.381966 | f(x) =     34489.79  |       1013.304     33474.47     2.016186
 x =  0.618034 | f(x) =     34465.94  |       1001.764     33462.15     2.025087
 x =  0.763932 | f(x) =     34442.25  |       989.0345     33451.19       2.0306
 x =  0.854102 | f(x) =     34426.12  |       979.8304     33444.26     2.034047
 x =   0.90983 | f(x) =      34415.9  |       973.7961     33440.06     2.036193
====================== step 26/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34402.24  |        966.073     33434.13     2.039691
 x =         1 | f(x) =     34305.54  |       945.7078     33357.76     2.076387
 x =  0.381966 | f(x) =      34339.7  |       934.8917     33402.76     2.053233
 x =  0.618034 | f(x) =     34319.84  |       930.8938     33386.89     2.061895
 x =  0.763932 | f(x) =     34310.68  |       932.7847     33375.83     2.067361
 x =  0.854102 | f(x) =     34309.39  |       938.5088     33368.81     2.070782
 x =  0.843757 | f(x) =     34311.97  |       940.6153     33369.29     2.070388
====================== step 27/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34314.13  |       954.2089     33357.84     2.076387
 x =         1 | f(x) =     34266.13  |       963.9261      33300.1     2.103467
 x =  0.381966 | f(x) =     34265.54  |       929.2117     33334.24     2.086236
 x =  0.618034 | f(x) =     34259.68  |       935.5789     33322.01      2.09264
 x =  0.763932 | f(x) =     34260.64  |       944.8733     33313.67     2.096718
 x =  0.650891 | f(x) =     34261.48  |       939.7097     33319.67      2.09355
 x =  0.527864 | f(x) =     34261.54  |       932.7804     33326.67     2.090166
====================== step 28/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34259.92  |       935.9462     33321.88      2.09264
 x =         1 | f(x) =     34204.14  |       991.9347     33210.06     2.148492
 x =  0.381966 | f(x) =     34204.97  |       925.0187     33277.84     2.113644
 x =  0.618034 | f(x) =      34186.4  |       930.8776     33253.39     2.126697
 x =  0.763932 | f(x) =     34186.01  |       947.2238     33236.65     2.134924
 x =  0.697656 | f(x) =     34190.77  |       946.0807     33242.56     2.131172
 x =  0.854102 | f(x) =     34195.61  |       967.0848     33226.39     2.140069
====================== step 29/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34196.94  |       959.8431     33234.96     2.134924
 x =         1 | f(x) =     34150.66  |       956.0945     33192.41     2.155747
 x =  0.381966 | f(x) =     34140.53  |       920.8301     33217.56       2.1424
 x =  0.618034 | f(x) =     34138.43  |       927.5063     33208.78     2.147316
 x =  0.763932 | f(x) =     34141.79  |       937.0807     33202.56     2.150466
 x =  0.553185 | f(x) =     34139.38  |        926.303     33210.94     2.145943
 x =  0.673762 | f(x) =     34139.87  |        931.445     33206.28     2.148509
====================== step 30/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34139.52  |        928.952     33208.42     2.147316
 x =         1 | f(x) =     34093.73  |       988.6171      33102.9     2.204941
 x =  0.381966 | f(x) =     34087.13  |       918.1906     33166.77     2.168707
 x =  0.618034 | f(x) =     34071.36  |       925.0287     33144.14     2.182308
 x =  0.763932 | f(x) =     34072.99  |       942.5368     33128.27     2.190868
 x =  0.663504 | f(x) =     34076.58  |        937.599      33136.8     2.184963
 x =  0.527864 | f(x) =     34079.02  |       926.1743     33150.66     2.177077
   preparing final solution
   computing new velocity
write lock file:

   FemModel initialization elapsed time:   0.017748
   Total Core solution elapsed time:       15.8137
   Linear solver elapsed time:             10.13   (64%)

   Total elapsed time: 0 hrs 0 min 15 sec
loading results from cluster
   Step 4: Transient run
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-13-12-64101/SeaRISEgreenland.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:
   Updating Mmes
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: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.07862e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   41.5975 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        65.5735 &gt; 10 %
   Convergence criterion: max(du)                 0.00018393
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.27196e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   4.32563 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        7.5658 &lt; 10 %
   Convergence criterion: max(du)                 1.07212e-05
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.1709e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   1.0665 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        2.94217 &lt; 10 %
   Convergence criterion: max(du)                 5.896e-06
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.29975e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   0.31678 &lt; 1 %
   Convergence criterion: norm(du)/norm(u)        1.23578 &lt; 10 %
   Convergence criterion: max(du)                 2.53123e-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
   Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2
   Allocating matrices (Kff stiffness matrix size: 3708 x 3708)
   Assembling matrices

[0] ??? Error using ==&gt; 
[1] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[1] CreatePVectorCG./analyses/MasstransportAnalysis.cpp:720
[0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

 error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

loading results from cluster
[Warning: Could not copy
/Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-13-12-64101//SeaRISEgreenland.outbin] 
[&gt; In issmscpin (line 22)
In generic/Download (line 328)
In loadresultsfromcluster (line 45)
In solve (line 210)
In runme (line 111)] 
Error using loadresultsfromdisk

=========================================================================
   Binary file SeaRISEgreenland.outbin not found

   This typically results from an error encountered during the simulation
   Please check for error messages above or in the outlog
=========================================================================


Error in loadresultsfromcluster (line 48)
md=loadresultsfromdisk(md,[md.miscellaneous.name '.outbin']);

Error in solve (line 210)
md=loadresultsfromcluster(md);

Error in runme (line 111)
	md=solve(md,'Transient');FAILURE
Not implemented yet!
+++ Removing old junit reports from: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog/results 

+++ Running case: Example-AMR 
+++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 /Users/jenkins/workspace/macOS-Silicon-Examples//execution/mismip-06-30-2026-05-11-55-60851/mismip.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
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

[0] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>


[1] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[1] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

loading results from cluster
[Warning: Could not copy
/Users/jenkins/workspace/macOS-Silicon-Examples//execution/mismip-06-30-2026-05-11-55-60851//mismip.outbin] 
[&gt; In issmscpin (line 22)
In generic/Download (line 328)
In loadresultsfromcluster (line 45)
In solve (line 210)
In runme (line 65)] 
Error using loadresultsfromdisk

=========================================================================
   Binary file mismip.outbin not found

   This typically results from an error encountered during the simulation
   Please check for error messages above or in the outlog
=========================================================================


Error in loadresultsfromcluster (line 48)
md=loadresultsfromdisk(md,d.miscellaneous.name '.outbin']);

Error in solve (line 210)
md=loadresultsfromcluster(md);

Error in runme (line 65)
	md=solve(md,'Transient');FAILURE
+++ exit code: 0
+++ error: 0

+++ Running case: Example-AMR 
+++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 /Users/jenkins/workspace/macOS-Silicon-Examples//execution/mismip-06-30-2026-05-11-55-60851/mismip.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
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

[0] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>


[1] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[1] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

loading results from cluster
[Warning: Could not copy
/Users/jenkins/workspace/macOS-Silicon-Examples//execution/mismip-06-30-2026-05-11-55-60851//mismip.outbin] 
[&gt; In issmscpin (line 22)
In generic/Download (line 328)
In loadresultsfromcluster (line 45)
In solve (line 210)
In runme (line 65)] 
Error using loadresultsfromdisk

=========================================================================
   Binary file mismip.outbin not found

   This typically results from an error encountered during the simulation
   Please check for error messages above or in the outlog
=========================================================================


Error in loadresultsfromcluster (line 48)
md=loadresultsfromdisk(md,d.miscellaneous.name '.outbin']);

Error in solve (line 210)
md=loadresultsfromcluster(md);

Error in runme (line 65)
	md=solve(md,'Transient');FAILURE
+++ exit code: 0
+++ error: 1

+++ Running case: Example-EsaGRACE 
+++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 4.14.2-git-0cebcd9, 1 node, max. 1 thread]
Info    : Started on Tue Jun 30 05:12:05 2026
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    : [ 60%] 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 0.00112888s, CPU 0.000584s)
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    : [ 60%] 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 9.35672s, CPU 9.2723s)
Info    : 7665 nodes 15739 elements
Info    : Writing 'sphere.msh'...
Info    : Done writing 'sphere.msh'
Info    : Stopped on Tue Jun 30 05:12:14 2026 (From start: Wall 9.38724s, CPU 9.30082s)
gmtmask: num vertices 7664
gmtmask: done
   Step 2: Define loads in meters of ice height equivalent
1 of 1 months done!
   Step 3: Parameterization
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In runme (line 65)] 
   Step 4: Solve Esa solver
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/EsaGRACE-06-30-2026-05-12-18-62643/EsaGRACE.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:   0.101616
   Total Core solution elapsed time:       3.85277
   Linear solver elapsed time:             0       (0%)

   Total elapsed time: 0 hrs 0 min 3 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-Silicon-Examples/nightlylog

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 4.14.2-git-0cebcd9, 1 node, max. 1 thread]
Info    : Started on Tue Jun 30 05:12:05 2026
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    : [ 60%] 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 0.00112888s, CPU 0.000584s)
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    : [ 60%] 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 9.35672s, CPU 9.2723s)
Info    : 7665 nodes 15739 elements
Info    : Writing 'sphere.msh'...
Info    : Done writing 'sphere.msh'
Info    : Stopped on Tue Jun 30 05:12:14 2026 (From start: Wall 9.38724s, CPU 9.30082s)
gmtmask: num vertices 7664
gmtmask: done
   Step 2: Define loads in meters of ice height equivalent
1 of 1 months done!
   Step 3: Parameterization
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In runme (line 65)] 
   Step 4: Solve Esa solver
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/EsaGRACE-06-30-2026-05-12-18-62643/EsaGRACE.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:   0.101616
   Total Core solution elapsed time:       3.85277
   Linear solver elapsed time:             0       (0%)

   Total elapsed time: 0 hrs 0 min 3 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-Silicon-Examples/nightlylog

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 = 4149
   Step 3: Define loads
   Step 4: Parameterization
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In runme (line 73)] 
   Step 5: Solve Esa solver
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/EsaWahr-06-30-2026-05-12-40-63566/EsaWahr.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:   0.057034
   Total Core solution elapsed time:       0.462106
   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-Silicon-Examples/nightlylog

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 = 4149
   Step 3: Define loads
   Step 4: Parameterization
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In runme (line 73)] 
   Step 5: Solve Esa solver
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/EsaWahr-06-30-2026-05-12-40-63566/EsaWahr.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:   0.057034
   Total Core solution elapsed time:       0.462106
   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-Silicon-Examples/nightlylog

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 = 6364
   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
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In TemporaryParameterFile64101 (line 54)
In parameterize (line 29)
In runme (line 41)] 
   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 /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-12-54-64101/SeaRISEgreenland.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
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) =     57224.29  |       7295.477     49928.81  4.50625e-32
 x =         1 | f(x) =     48746.04  |       3599.447     45146.54   0.05279271
====================== step 2/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     48742.38  |       3596.285     45146.05   0.05279271
 x =         1 | f(x) =     45647.91  |       2718.953     42928.83    0.1197843
====================== step 3/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     45671.31  |       2742.747     42928.44    0.1197843
 x =         1 | f(x) =     45232.67  |       2698.813     42533.72    0.1369708
 x =  0.381966 | f(x) =        45379  |       2603.929     42774.95    0.1236372
 x =  0.618034 | f(x) =      45330.6  |       2648.425     42682.04    0.1276943
 x =  0.763932 | f(x) =     45296.76  |       2671.065     42625.56     0.130842
 x =  0.854102 | f(x) =     45276.86  |       2686.467     42590.26    0.1330319
 x =   0.90983 | f(x) =     45264.68  |       2696.086     42568.46    0.1344787
====================== step 4/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     45240.36  |       2706.494     42533.73    0.1369708
 x =         1 | f(x) =     43859.84  |       2340.536     41519.12    0.1890024
====================== step 5/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     43852.25  |       2334.282     41517.78    0.1890024
 x =         1 | f(x) =     42920.97  |       2083.961     40836.77    0.2369752
====================== step 6/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      42920.9  |       2084.991     40835.67    0.2369752
 x =         1 | f(x) =     40460.25  |       1899.183     38560.58    0.4824762
====================== step 7/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     40534.33  |        1973.32     38560.53    0.4824762
 x =         1 | f(x) =     40130.78  |       1639.919     38490.36    0.4956304
 x =  0.381966 | f(x) =     40164.85  |        1630.76      38533.6    0.4858795
 x =  0.618034 | f(x) =      40134.1  |       1616.635     38516.98    0.4889848
 x =  0.763932 | f(x) =     40129.15  |       1621.843     38506.82    0.4912867
 x =  0.758239 | f(x) =     40130.73  |       1622.982     38507.26    0.4911914
 x =  0.854102 | f(x) =     40130.59  |       1629.589      38500.5    0.4928555
====================== step 8/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     40131.86  |       1624.501     38506.87    0.4912867
 x =         1 | f(x) =     39672.04  |       1494.393      38177.1    0.5404335
====================== step 9/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     39669.91  |       1492.656     38176.71    0.5404335
 x =         1 | f(x) =     39036.52  |       1397.035     37638.85    0.6393392
====================== step 10/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      39035.7  |       1396.818     37638.25    0.6393392
 x =         1 | f(x) =     38160.75  |       1434.238     36725.68    0.8373965
====================== step 11/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     38179.53  |       1453.779     36724.91    0.8373965
 x =         1 | f(x) =     38018.08  |       1362.899     36654.32    0.8555446
 x =  0.381966 | f(x) =      38006.1  |       1307.638     36697.62    0.8434183
 x =  0.618034 | f(x) =     37998.93  |       1317.255     36680.83    0.8476997
 x =  0.763932 | f(x) =     38004.57  |       1333.041     36670.68    0.8505411
 x =  0.584017 | f(x) =     38003.78  |       1319.576     36683.36    0.8470667
 x =  0.671791 | f(x) =     38003.38  |       1325.402     36677.13    0.8487227
====================== step 12/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     38003.23  |       1321.449     36680.93    0.8476997
 x =         1 | f(x) =     37727.49  |       1293.449     36433.13    0.9076876
 x =  0.381966 | f(x) =     37869.24  |       1283.536     36584.84    0.8699897
 x =  0.618034 | f(x) =     37802.75  |       1274.511     36527.36    0.8841192
 x =  0.763932 | f(x) =     37768.11  |       1276.053     36491.17    0.8930184
 x =  0.854102 | f(x) =     37752.74  |       1283.039     36468.81    0.8985822
 x =   0.90983 | f(x) =     37746.89  |       1290.972     36455.01    0.9020451
====================== step 13/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37738.53  |       1304.491     36433.13    0.9076876
 x =         1 | f(x) =     37608.99  |       1280.695     36327.36    0.9346133
 x =  0.381966 | f(x) =     37641.46  |       1248.416     36392.13    0.9173317
 x =  0.618034 | f(x) =     37620.76  |        1252.51     36367.33     0.923688
 x =  0.763932 | f(x) =     37614.37  |       1261.422     36352.02    0.9277676
 x =  0.881827 | f(x) =     37612.66  |       1272.045     36339.69    0.9311486
 x =  0.887712 | f(x) =     37615.16  |       1275.182     36339.04    0.9313194
====================== step 14/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37613.46  |       1285.195     36327.33    0.9346133
 x =         1 | f(x) =     37355.17  |       1208.508     36145.68    0.9832389
 x =  0.381966 | f(x) =     37500.75  |       1242.849     36256.94    0.9526516
 x =  0.618034 | f(x) =     37442.28  |       1226.401     36214.91    0.9641313
 x =  0.763932 | f(x) =      37405.8  |       1216.483     36188.34    0.9713527
 x =  0.854102 | f(x) =     37384.97  |       1212.095      36171.9    0.9758642
 x =   0.90983 | f(x) =     37373.35  |       1210.619     36161.75    0.9786708
====================== step 15/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37356.61  |       1209.966     36145.66    0.9832389
 x =         1 | f(x) =     36613.19  |       1249.983     35361.98     1.224813
====================== step 16/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     36623.88  |        1261.34     35361.31     1.224813
 x =         1 | f(x) =     36401.35  |       1164.393      35235.7     1.266538
 x =  0.381966 | f(x) =     36489.07  |       1175.562     35312.27     1.239401
 x =  0.618034 | f(x) =     36453.02  |       1168.245     35283.53     1.249251
 x =  0.763932 | f(x) =     36430.52  |       1164.073     35265.19     1.255657
 x =  0.854102 | f(x) =     36417.31  |       1162.253      35253.8     1.259738
 x =   0.90983 | f(x) =     36409.76  |       1161.742     35246.75     1.262306
====================== step 17/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     36399.92  |       1162.988     35235.67     1.266538
 x =         1 | f(x) =     36081.57  |       1104.425     34975.79     1.355818
 x =  0.381966 | f(x) =     36265.44  |       1130.355     35133.78     1.300359
 x =  0.618034 | f(x) =     36193.78  |        1118.27     35074.19     1.321301
 x =  0.763932 | f(x) =     36149.64  |       1111.819     35036.49     1.334295
 x =  0.854102 | f(x) =     36123.81  |       1109.421     35013.05     1.342444
 x =   0.90983 | f(x) =      36108.8  |       1108.926     34998.53     1.347525
====================== step 18/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      36085.3  |        1108.29     34975.65     1.355818
 x =         1 | f(x) =     35861.04  |       1112.461     34747.14     1.439384
 x =  0.381966 | f(x) =     35973.47  |       1088.485      34883.6      1.38831
 x =  0.618034 | f(x) =     35923.54  |       1091.585     34830.55     1.408119
 x =  0.763932 | f(x) =     35898.04  |       1098.771     34797.85     1.420145
 x =  0.854102 | f(x) =     35885.14  |       1105.568     34778.14     1.427447
 x =   0.90983 | f(x) =     35878.15  |       1110.654     34766.06     1.431986
====================== step 19/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      35865.5  |       1117.088     34746.98     1.439384
 x =         1 | f(x) =     35691.97  |       1044.544     34645.95     1.478277
 x =  0.381966 | f(x) =     35777.36  |       1070.548     34705.35     1.454006
 x =  0.618034 | f(x) =     35745.64  |       1059.757     34684.42     1.463117
 x =  0.763932 | f(x) =     35722.42  |       1051.185     34669.77     1.468843
 x =  0.854102 | f(x) =     35708.98  |       1046.983     34660.53      1.47242
 x =   0.90983 | f(x) =     35701.67  |       1045.394      34654.8     1.474647
====================== step 20/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35692.21  |        1044.82     34645.91     1.478277
 x =         1 | f(x) =     35217.83  |       1046.743     34169.41     1.677241
====================== step 21/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35220.09  |       1049.391     34169.02     1.677241
 x =         1 | f(x) =     35067.96  |       992.6728     34073.57     1.717358
 x =  0.381966 | f(x) =     35136.92  |        1009.81     34125.41     1.692094
 x =  0.618034 | f(x) =     35110.19  |       1001.714     34106.77     1.701565
 x =  0.763932 | f(x) =     35091.26  |       996.0861     34093.46     1.707529
 x =  0.854102 | f(x) =     35081.08  |       994.0872     34085.28     1.711257
 x =   0.90983 | f(x) =      35076.1  |       994.0574     34080.33     1.713578
====================== step 22/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35069.87  |        995.247     34072.91     1.717358
 x =         1 | f(x) =     34937.84  |       1020.937        33915      1.90029
 x =  0.381966 | f(x) =     34962.83  |       987.2311     33973.82     1.785839
 x =  0.618034 | f(x) =     34923.39  |       993.1615      33928.4     1.830988
 x =  0.763932 | f(x) =     34933.83  |       1002.578     33929.39     1.858955
 x =   0.63372 | f(x) =     34921.24  |       995.8724     33923.53     1.834066
 x =  0.668711 | f(x) =     34927.57  |       996.8291      33928.9     1.840966
====================== step 23/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      34922.2  |       995.6929     33924.67     1.834066
 x =         1 | f(x) =     34842.48  |       997.9163     33842.73     1.833677
 x =  0.381966 | f(x) =     34837.03  |       968.5171     33866.68     1.832157
 x =  0.618034 | f(x) =     34790.82  |       967.7175     33821.27      1.83186
 x =  0.763932 | f(x) =     34805.49  |       976.4819     33827.17     1.832178
 x =  0.626188 | f(x) =     34792.58  |       969.2797     33821.47     1.831865
 x =  0.527864 | f(x) =     34811.48  |       967.3939     33842.26     1.831895
====================== step 24/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34790.11  |       967.7752      33820.5      1.83186
 x =         1 | f(x) =     34566.78  |       1052.886      33511.9       2.0022
 x =  0.381966 | f(x) =     34665.54  |       983.5118     33680.14     1.895133
 x =  0.618034 | f(x) =     34623.62  |       1007.223     33614.46     1.935621
 x =  0.763932 | f(x) =     34602.07  |       1024.178     33575.93     1.960962
 x =  0.854102 | f(x) =     34591.82  |       1037.857     33551.98     1.976714
 x =   0.90983 | f(x) =     34586.29  |       1047.223     33537.09      1.98636
====================== step 25/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      34574.1  |       1059.303     33512.79       2.0022
 x =         1 | f(x) =     34405.89  |       969.5796     33434.27     2.039691
 x =  0.381966 | f(x) =     34489.79  |       1013.304     33474.47     2.016186
 x =  0.618034 | f(x) =     34465.94  |       1001.764     33462.15     2.025087
 x =  0.763932 | f(x) =     34442.25  |       989.0345     33451.19       2.0306
 x =  0.854102 | f(x) =     34426.12  |       979.8304     33444.26     2.034047
 x =   0.90983 | f(x) =      34415.9  |       973.7961     33440.06     2.036193
====================== step 26/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34402.24  |        966.073     33434.13     2.039691
 x =         1 | f(x) =     34305.54  |       945.7078     33357.76     2.076387
 x =  0.381966 | f(x) =      34339.7  |       934.8917     33402.76     2.053233
 x =  0.618034 | f(x) =     34319.84  |       930.8938     33386.89     2.061895
 x =  0.763932 | f(x) =     34310.68  |       932.7847     33375.83     2.067361
 x =  0.854102 | f(x) =     34309.39  |       938.5088     33368.81     2.070782
 x =  0.843757 | f(x) =     34311.97  |       940.6153     33369.29     2.070388
====================== step 27/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34314.13  |       954.2089     33357.84     2.076387
 x =         1 | f(x) =     34266.13  |       963.9261      33300.1     2.103467
 x =  0.381966 | f(x) =     34265.54  |       929.2117     33334.24     2.086236
 x =  0.618034 | f(x) =     34259.68  |       935.5789     33322.01      2.09264
 x =  0.763932 | f(x) =     34260.64  |       944.8733     33313.67     2.096718
 x =  0.650891 | f(x) =     34261.48  |       939.7097     33319.67      2.09355
 x =  0.527864 | f(x) =     34261.54  |       932.7804     33326.67     2.090166
====================== step 28/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34259.92  |       935.9462     33321.88      2.09264
 x =         1 | f(x) =     34204.14  |       991.9347     33210.06     2.148492
 x =  0.381966 | f(x) =     34204.97  |       925.0187     33277.84     2.113644
 x =  0.618034 | f(x) =      34186.4  |       930.8776     33253.39     2.126697
 x =  0.763932 | f(x) =     34186.01  |       947.2238     33236.65     2.134924
 x =  0.697656 | f(x) =     34190.77  |       946.0807     33242.56     2.131172
 x =  0.854102 | f(x) =     34195.61  |       967.0848     33226.39     2.140069
====================== step 29/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34196.94  |       959.8431     33234.96     2.134924
 x =         1 | f(x) =     34150.66  |       956.0945     33192.41     2.155747
 x =  0.381966 | f(x) =     34140.53  |       920.8301     33217.56       2.1424
 x =  0.618034 | f(x) =     34138.43  |       927.5063     33208.78     2.147316
 x =  0.763932 | f(x) =     34141.79  |       937.0807     33202.56     2.150466
 x =  0.553185 | f(x) =     34139.38  |        926.303     33210.94     2.145943
 x =  0.673762 | f(x) =     34139.87  |        931.445     33206.28     2.148509
====================== step 30/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34139.52  |        928.952     33208.42     2.147316
 x =         1 | f(x) =     34093.73  |       988.6171      33102.9     2.204941
 x =  0.381966 | f(x) =     34087.13  |       918.1906     33166.77     2.168707
 x =  0.618034 | f(x) =     34071.36  |       925.0287     33144.14     2.182308
 x =  0.763932 | f(x) =     34072.99  |       942.5368     33128.27     2.190868
 x =  0.663504 | f(x) =     34076.58  |        937.599      33136.8     2.184963
 x =  0.527864 | f(x) =     34079.02  |       926.1743     33150.66     2.177077
   preparing final solution
   computing new velocity
write lock file:

   FemModel initialization elapsed time:   0.017748
   Total Core solution elapsed time:       15.8137
   Linear solver elapsed time:             10.13   (64%)

   Total elapsed time: 0 hrs 0 min 15 sec
loading results from cluster
   Step 4: Transient run
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-13-12-64101/SeaRISEgreenland.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:
   Updating Mmes
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: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.07862e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   41.5975 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        65.5735 &gt; 10 %
   Convergence criterion: max(du)                 0.00018393
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.27196e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   4.32563 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        7.5658 &lt; 10 %
   Convergence criterion: max(du)                 1.07212e-05
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.1709e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   1.0665 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        2.94217 &lt; 10 %
   Convergence criterion: max(du)                 5.896e-06
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.29975e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   0.31678 &lt; 1 %
   Convergence criterion: norm(du)/norm(u)        1.23578 &lt; 10 %
   Convergence criterion: max(du)                 2.53123e-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
   Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2
   Allocating matrices (Kff stiffness matrix size: 3708 x 3708)
   Assembling matrices

[0] ??? Error using ==&gt; 
[1] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[1] CreatePVectorCG./analyses/MasstransportAnalysis.cpp:720
[0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

 error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

loading results from cluster
[Warning: Could not copy
/Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-13-12-64101//SeaRISEgreenland.outbin] 
[&gt; In issmscpin (line 22)
In generic/Download (line 328)
In loadresultsfromcluster (line 45)
In solve (line 210)
In runme (line 111)] 
Error using loadresultsfromdisk

=========================================================================
   Binary file SeaRISEgreenland.outbin not found

   This typically results from an error encountered during the simulation
   Please check for error messages above or in the outlog
=========================================================================


Error in loadresultsfromcluster (line 48)
md=loadresultsfromdisk(md,d.miscellaneous.name '.outbin']);

Error in solve (line 210)
md=loadresultsfromcluster(md);

Error in runme (line 111)
	md=solve(md,'Transient');FAILURE
+++ exit code: 0
+++ error: 0

+++ Running case: Example-Greenland 
+++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 = 6364
   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
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In TemporaryParameterFile64101 (line 54)
In parameterize (line 29)
In runme (line 41)] 
   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 /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-12-54-64101/SeaRISEgreenland.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
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) =     57224.29  |       7295.477     49928.81  4.50625e-32
 x =         1 | f(x) =     48746.04  |       3599.447     45146.54   0.05279271
====================== step 2/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     48742.38  |       3596.285     45146.05   0.05279271
 x =         1 | f(x) =     45647.91  |       2718.953     42928.83    0.1197843
====================== step 3/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     45671.31  |       2742.747     42928.44    0.1197843
 x =         1 | f(x) =     45232.67  |       2698.813     42533.72    0.1369708
 x =  0.381966 | f(x) =        45379  |       2603.929     42774.95    0.1236372
 x =  0.618034 | f(x) =      45330.6  |       2648.425     42682.04    0.1276943
 x =  0.763932 | f(x) =     45296.76  |       2671.065     42625.56     0.130842
 x =  0.854102 | f(x) =     45276.86  |       2686.467     42590.26    0.1330319
 x =   0.90983 | f(x) =     45264.68  |       2696.086     42568.46    0.1344787
====================== step 4/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     45240.36  |       2706.494     42533.73    0.1369708
 x =         1 | f(x) =     43859.84  |       2340.536     41519.12    0.1890024
====================== step 5/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     43852.25  |       2334.282     41517.78    0.1890024
 x =         1 | f(x) =     42920.97  |       2083.961     40836.77    0.2369752
====================== step 6/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      42920.9  |       2084.991     40835.67    0.2369752
 x =         1 | f(x) =     40460.25  |       1899.183     38560.58    0.4824762
====================== step 7/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     40534.33  |        1973.32     38560.53    0.4824762
 x =         1 | f(x) =     40130.78  |       1639.919     38490.36    0.4956304
 x =  0.381966 | f(x) =     40164.85  |        1630.76      38533.6    0.4858795
 x =  0.618034 | f(x) =      40134.1  |       1616.635     38516.98    0.4889848
 x =  0.763932 | f(x) =     40129.15  |       1621.843     38506.82    0.4912867
 x =  0.758239 | f(x) =     40130.73  |       1622.982     38507.26    0.4911914
 x =  0.854102 | f(x) =     40130.59  |       1629.589      38500.5    0.4928555
====================== step 8/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     40131.86  |       1624.501     38506.87    0.4912867
 x =         1 | f(x) =     39672.04  |       1494.393      38177.1    0.5404335
====================== step 9/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     39669.91  |       1492.656     38176.71    0.5404335
 x =         1 | f(x) =     39036.52  |       1397.035     37638.85    0.6393392
====================== step 10/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      39035.7  |       1396.818     37638.25    0.6393392
 x =         1 | f(x) =     38160.75  |       1434.238     36725.68    0.8373965
====================== step 11/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     38179.53  |       1453.779     36724.91    0.8373965
 x =         1 | f(x) =     38018.08  |       1362.899     36654.32    0.8555446
 x =  0.381966 | f(x) =      38006.1  |       1307.638     36697.62    0.8434183
 x =  0.618034 | f(x) =     37998.93  |       1317.255     36680.83    0.8476997
 x =  0.763932 | f(x) =     38004.57  |       1333.041     36670.68    0.8505411
 x =  0.584017 | f(x) =     38003.78  |       1319.576     36683.36    0.8470667
 x =  0.671791 | f(x) =     38003.38  |       1325.402     36677.13    0.8487227
====================== step 12/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     38003.23  |       1321.449     36680.93    0.8476997
 x =         1 | f(x) =     37727.49  |       1293.449     36433.13    0.9076876
 x =  0.381966 | f(x) =     37869.24  |       1283.536     36584.84    0.8699897
 x =  0.618034 | f(x) =     37802.75  |       1274.511     36527.36    0.8841192
 x =  0.763932 | f(x) =     37768.11  |       1276.053     36491.17    0.8930184
 x =  0.854102 | f(x) =     37752.74  |       1283.039     36468.81    0.8985822
 x =   0.90983 | f(x) =     37746.89  |       1290.972     36455.01    0.9020451
====================== step 13/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37738.53  |       1304.491     36433.13    0.9076876
 x =         1 | f(x) =     37608.99  |       1280.695     36327.36    0.9346133
 x =  0.381966 | f(x) =     37641.46  |       1248.416     36392.13    0.9173317
 x =  0.618034 | f(x) =     37620.76  |        1252.51     36367.33     0.923688
 x =  0.763932 | f(x) =     37614.37  |       1261.422     36352.02    0.9277676
 x =  0.881827 | f(x) =     37612.66  |       1272.045     36339.69    0.9311486
 x =  0.887712 | f(x) =     37615.16  |       1275.182     36339.04    0.9313194
====================== step 14/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37613.46  |       1285.195     36327.33    0.9346133
 x =         1 | f(x) =     37355.17  |       1208.508     36145.68    0.9832389
 x =  0.381966 | f(x) =     37500.75  |       1242.849     36256.94    0.9526516
 x =  0.618034 | f(x) =     37442.28  |       1226.401     36214.91    0.9641313
 x =  0.763932 | f(x) =      37405.8  |       1216.483     36188.34    0.9713527
 x =  0.854102 | f(x) =     37384.97  |       1212.095      36171.9    0.9758642
 x =   0.90983 | f(x) =     37373.35  |       1210.619     36161.75    0.9786708
====================== step 15/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37356.61  |       1209.966     36145.66    0.9832389
 x =         1 | f(x) =     36613.19  |       1249.983     35361.98     1.224813
====================== step 16/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     36623.88  |        1261.34     35361.31     1.224813
 x =         1 | f(x) =     36401.35  |       1164.393      35235.7     1.266538
 x =  0.381966 | f(x) =     36489.07  |       1175.562     35312.27     1.239401
 x =  0.618034 | f(x) =     36453.02  |       1168.245     35283.53     1.249251
 x =  0.763932 | f(x) =     36430.52  |       1164.073     35265.19     1.255657
 x =  0.854102 | f(x) =     36417.31  |       1162.253      35253.8     1.259738
 x =   0.90983 | f(x) =     36409.76  |       1161.742     35246.75     1.262306
====================== step 17/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     36399.92  |       1162.988     35235.67     1.266538
 x =         1 | f(x) =     36081.57  |       1104.425     34975.79     1.355818
 x =  0.381966 | f(x) =     36265.44  |       1130.355     35133.78     1.300359
 x =  0.618034 | f(x) =     36193.78  |        1118.27     35074.19     1.321301
 x =  0.763932 | f(x) =     36149.64  |       1111.819     35036.49     1.334295
 x =  0.854102 | f(x) =     36123.81  |       1109.421     35013.05     1.342444
 x =   0.90983 | f(x) =      36108.8  |       1108.926     34998.53     1.347525
====================== step 18/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      36085.3  |        1108.29     34975.65     1.355818
 x =         1 | f(x) =     35861.04  |       1112.461     34747.14     1.439384
 x =  0.381966 | f(x) =     35973.47  |       1088.485      34883.6      1.38831
 x =  0.618034 | f(x) =     35923.54  |       1091.585     34830.55     1.408119
 x =  0.763932 | f(x) =     35898.04  |       1098.771     34797.85     1.420145
 x =  0.854102 | f(x) =     35885.14  |       1105.568     34778.14     1.427447
 x =   0.90983 | f(x) =     35878.15  |       1110.654     34766.06     1.431986
====================== step 19/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      35865.5  |       1117.088     34746.98     1.439384
 x =         1 | f(x) =     35691.97  |       1044.544     34645.95     1.478277
 x =  0.381966 | f(x) =     35777.36  |       1070.548     34705.35     1.454006
 x =  0.618034 | f(x) =     35745.64  |       1059.757     34684.42     1.463117
 x =  0.763932 | f(x) =     35722.42  |       1051.185     34669.77     1.468843
 x =  0.854102 | f(x) =     35708.98  |       1046.983     34660.53      1.47242
 x =   0.90983 | f(x) =     35701.67  |       1045.394      34654.8     1.474647
====================== step 20/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35692.21  |        1044.82     34645.91     1.478277
 x =         1 | f(x) =     35217.83  |       1046.743     34169.41     1.677241
====================== step 21/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35220.09  |       1049.391     34169.02     1.677241
 x =         1 | f(x) =     35067.96  |       992.6728     34073.57     1.717358
 x =  0.381966 | f(x) =     35136.92  |        1009.81     34125.41     1.692094
 x =  0.618034 | f(x) =     35110.19  |       1001.714     34106.77     1.701565
 x =  0.763932 | f(x) =     35091.26  |       996.0861     34093.46     1.707529
 x =  0.854102 | f(x) =     35081.08  |       994.0872     34085.28     1.711257
 x =   0.90983 | f(x) =      35076.1  |       994.0574     34080.33     1.713578
====================== step 22/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35069.87  |        995.247     34072.91     1.717358
 x =         1 | f(x) =     34937.84  |       1020.937        33915      1.90029
 x =  0.381966 | f(x) =     34962.83  |       987.2311     33973.82     1.785839
 x =  0.618034 | f(x) =     34923.39  |       993.1615      33928.4     1.830988
 x =  0.763932 | f(x) =     34933.83  |       1002.578     33929.39     1.858955
 x =   0.63372 | f(x) =     34921.24  |       995.8724     33923.53     1.834066
 x =  0.668711 | f(x) =     34927.57  |       996.8291      33928.9     1.840966
====================== step 23/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      34922.2  |       995.6929     33924.67     1.834066
 x =         1 | f(x) =     34842.48  |       997.9163     33842.73     1.833677
 x =  0.381966 | f(x) =     34837.03  |       968.5171     33866.68     1.832157
 x =  0.618034 | f(x) =     34790.82  |       967.7175     33821.27      1.83186
 x =  0.763932 | f(x) =     34805.49  |       976.4819     33827.17     1.832178
 x =  0.626188 | f(x) =     34792.58  |       969.2797     33821.47     1.831865
 x =  0.527864 | f(x) =     34811.48  |       967.3939     33842.26     1.831895
====================== step 24/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34790.11  |       967.7752      33820.5      1.83186
 x =         1 | f(x) =     34566.78  |       1052.886      33511.9       2.0022
 x =  0.381966 | f(x) =     34665.54  |       983.5118     33680.14     1.895133
 x =  0.618034 | f(x) =     34623.62  |       1007.223     33614.46     1.935621
 x =  0.763932 | f(x) =     34602.07  |       1024.178     33575.93     1.960962
 x =  0.854102 | f(x) =     34591.82  |       1037.857     33551.98     1.976714
 x =   0.90983 | f(x) =     34586.29  |       1047.223     33537.09      1.98636
====================== step 25/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      34574.1  |       1059.303     33512.79       2.0022
 x =         1 | f(x) =     34405.89  |       969.5796     33434.27     2.039691
 x =  0.381966 | f(x) =     34489.79  |       1013.304     33474.47     2.016186
 x =  0.618034 | f(x) =     34465.94  |       1001.764     33462.15     2.025087
 x =  0.763932 | f(x) =     34442.25  |       989.0345     33451.19       2.0306
 x =  0.854102 | f(x) =     34426.12  |       979.8304     33444.26     2.034047
 x =   0.90983 | f(x) =      34415.9  |       973.7961     33440.06     2.036193
====================== step 26/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34402.24  |        966.073     33434.13     2.039691
 x =         1 | f(x) =     34305.54  |       945.7078     33357.76     2.076387
 x =  0.381966 | f(x) =      34339.7  |       934.8917     33402.76     2.053233
 x =  0.618034 | f(x) =     34319.84  |       930.8938     33386.89     2.061895
 x =  0.763932 | f(x) =     34310.68  |       932.7847     33375.83     2.067361
 x =  0.854102 | f(x) =     34309.39  |       938.5088     33368.81     2.070782
 x =  0.843757 | f(x) =     34311.97  |       940.6153     33369.29     2.070388
====================== step 27/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34314.13  |       954.2089     33357.84     2.076387
 x =         1 | f(x) =     34266.13  |       963.9261      33300.1     2.103467
 x =  0.381966 | f(x) =     34265.54  |       929.2117     33334.24     2.086236
 x =  0.618034 | f(x) =     34259.68  |       935.5789     33322.01      2.09264
 x =  0.763932 | f(x) =     34260.64  |       944.8733     33313.67     2.096718
 x =  0.650891 | f(x) =     34261.48  |       939.7097     33319.67      2.09355
 x =  0.527864 | f(x) =     34261.54  |       932.7804     33326.67     2.090166
====================== step 28/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34259.92  |       935.9462     33321.88      2.09264
 x =         1 | f(x) =     34204.14  |       991.9347     33210.06     2.148492
 x =  0.381966 | f(x) =     34204.97  |       925.0187     33277.84     2.113644
 x =  0.618034 | f(x) =      34186.4  |       930.8776     33253.39     2.126697
 x =  0.763932 | f(x) =     34186.01  |       947.2238     33236.65     2.134924
 x =  0.697656 | f(x) =     34190.77  |       946.0807     33242.56     2.131172
 x =  0.854102 | f(x) =     34195.61  |       967.0848     33226.39     2.140069
====================== step 29/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34196.94  |       959.8431     33234.96     2.134924
 x =         1 | f(x) =     34150.66  |       956.0945     33192.41     2.155747
 x =  0.381966 | f(x) =     34140.53  |       920.8301     33217.56       2.1424
 x =  0.618034 | f(x) =     34138.43  |       927.5063     33208.78     2.147316
 x =  0.763932 | f(x) =     34141.79  |       937.0807     33202.56     2.150466
 x =  0.553185 | f(x) =     34139.38  |        926.303     33210.94     2.145943
 x =  0.673762 | f(x) =     34139.87  |        931.445     33206.28     2.148509
====================== step 30/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34139.52  |        928.952     33208.42     2.147316
 x =         1 | f(x) =     34093.73  |       988.6171      33102.9     2.204941
 x =  0.381966 | f(x) =     34087.13  |       918.1906     33166.77     2.168707
 x =  0.618034 | f(x) =     34071.36  |       925.0287     33144.14     2.182308
 x =  0.763932 | f(x) =     34072.99  |       942.5368     33128.27     2.190868
 x =  0.663504 | f(x) =     34076.58  |        937.599      33136.8     2.184963
 x =  0.527864 | f(x) =     34079.02  |       926.1743     33150.66     2.177077
   preparing final solution
   computing new velocity
write lock file:

   FemModel initialization elapsed time:   0.017748
   Total Core solution elapsed time:       15.8137
   Linear solver elapsed time:             10.13   (64%)

   Total elapsed time: 0 hrs 0 min 15 sec
loading results from cluster
   Step 4: Transient run
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-13-12-64101/SeaRISEgreenland.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:
   Updating Mmes
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: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.07862e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   41.5975 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        65.5735 &gt; 10 %
   Convergence criterion: max(du)                 0.00018393
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.27196e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   4.32563 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        7.5658 &lt; 10 %
   Convergence criterion: max(du)                 1.07212e-05
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.1709e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   1.0665 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        2.94217 &lt; 10 %
   Convergence criterion: max(du)                 5.896e-06
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.29975e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   0.31678 &lt; 1 %
   Convergence criterion: norm(du)/norm(u)        1.23578 &lt; 10 %
   Convergence criterion: max(du)                 2.53123e-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
   Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2
   Allocating matrices (Kff stiffness matrix size: 3708 x 3708)
   Assembling matrices

[0] ??? Error using ==&gt; 
[1] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[1] CreatePVectorCG./analyses/MasstransportAnalysis.cpp:720
[0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

 error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

loading results from cluster
[Warning: Could not copy
/Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-13-12-64101//SeaRISEgreenland.outbin] 
[&gt; In issmscpin (line 22)
In generic/Download (line 328)
In loadresultsfromcluster (line 45)
In solve (line 210)
In runme (line 111)] 
Error using loadresultsfromdisk

=========================================================================
   Binary file SeaRISEgreenland.outbin not found

   This typically results from an error encountered during the simulation
   Please check for error messages above or in the outlog
=========================================================================


Error in loadresultsfromcluster (line 48)
md=loadresultsfromdisk(md,d.miscellaneous.name '.outbin']);

Error in solve (line 210)
md=loadresultsfromcluster(md);

Error in runme (line 111)
	md=solve(md,'Transient');FAILURE
+++ exit code: 0
+++ error: 1
----------MATLAB exited in error!----------
starting: AMR

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 /Users/jenkins/workspace/macOS-Silicon-Examples//execution/mismip-06-30-2026-05-11-55-60851/mismip.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
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

[0] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>


[1] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[1] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

loading results from cluster
[Warning: Could not copy
/Users/jenkins/workspace/macOS-Silicon-Examples//execution/mismip-06-30-2026-05-11-55-60851//mismip.outbin] 
[&gt; In issmscpin (line 22)
In generic/Download (line 328)
In loadresultsfromcluster (line 45)
In solve (line 210)
In runme (line 65)] 
Error using loadresultsfromdisk

=========================================================================
   Binary file mismip.outbin not found

   This typically results from an error encountered during the simulation
   Please check for error messages above or in the outlog
=========================================================================


Error in loadresultsfromcluster (line 48)
md=loadresultsfromdisk(md,d.miscellaneous.name '.outbin']);

Error in solve (line 210)
md=loadresultsfromcluster(md);

Error in runme (line 65)
	md=solve(md,'Transient');FAILURE
finished: AMR
starting: EsaGRACE

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 4.14.2-git-0cebcd9, 1 node, max. 1 thread]
Info    : Started on Tue Jun 30 05:12:05 2026
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    : [ 60%] 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 0.00112888s, CPU 0.000584s)
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    : [ 60%] 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 9.35672s, CPU 9.2723s)
Info    : 7665 nodes 15739 elements
Info    : Writing 'sphere.msh'...
Info    : Done writing 'sphere.msh'
Info    : Stopped on Tue Jun 30 05:12:14 2026 (From start: Wall 9.38724s, CPU 9.30082s)
gmtmask: num vertices 7664
gmtmask: done
   Step 2: Define loads in meters of ice height equivalent
1 of 1 months done!
   Step 3: Parameterization
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In runme (line 65)] 
   Step 4: Solve Esa solver
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/EsaGRACE-06-30-2026-05-12-18-62643/EsaGRACE.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:   0.101616
   Total Core solution elapsed time:       3.85277
   Linear solver elapsed time:             0       (0%)

   Total elapsed time: 0 hrs 0 min 3 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
finished: EsaGRACE
starting: EsaWahr

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 = 4149
   Step 3: Define loads
   Step 4: Parameterization
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In runme (line 73)] 
   Step 5: Solve Esa solver
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/EsaWahr-06-30-2026-05-12-40-63566/EsaWahr.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:   0.057034
   Total Core solution elapsed time:       0.462106
   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
finished: EsaWahr
starting: Greenland

                            &lt; M A T L A B (R) &gt;
                  Copyright 1984-2023 The MathWorks, Inc.
              R2023b Update 6 (23.2.0.2485118) 64-bit (maca64)
                             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 = 6364
   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
[Warning: paterson is outdated, please consider using cuffey instead] 
[&gt; In paterson (line 10)
In TemporaryParameterFile64101 (line 54)
In parameterize (line 29)
In runme (line 41)] 
   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 /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-12-54-64101/SeaRISEgreenland.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
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) =     57224.29  |       7295.477     49928.81  4.50625e-32
 x =         1 | f(x) =     48746.04  |       3599.447     45146.54   0.05279271
====================== step 2/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     48742.38  |       3596.285     45146.05   0.05279271
 x =         1 | f(x) =     45647.91  |       2718.953     42928.83    0.1197843
====================== step 3/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     45671.31  |       2742.747     42928.44    0.1197843
 x =         1 | f(x) =     45232.67  |       2698.813     42533.72    0.1369708
 x =  0.381966 | f(x) =        45379  |       2603.929     42774.95    0.1236372
 x =  0.618034 | f(x) =      45330.6  |       2648.425     42682.04    0.1276943
 x =  0.763932 | f(x) =     45296.76  |       2671.065     42625.56     0.130842
 x =  0.854102 | f(x) =     45276.86  |       2686.467     42590.26    0.1330319
 x =   0.90983 | f(x) =     45264.68  |       2696.086     42568.46    0.1344787
====================== step 4/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     45240.36  |       2706.494     42533.73    0.1369708
 x =         1 | f(x) =     43859.84  |       2340.536     41519.12    0.1890024
====================== step 5/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     43852.25  |       2334.282     41517.78    0.1890024
 x =         1 | f(x) =     42920.97  |       2083.961     40836.77    0.2369752
====================== step 6/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      42920.9  |       2084.991     40835.67    0.2369752
 x =         1 | f(x) =     40460.25  |       1899.183     38560.58    0.4824762
====================== step 7/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     40534.33  |        1973.32     38560.53    0.4824762
 x =         1 | f(x) =     40130.78  |       1639.919     38490.36    0.4956304
 x =  0.381966 | f(x) =     40164.85  |        1630.76      38533.6    0.4858795
 x =  0.618034 | f(x) =      40134.1  |       1616.635     38516.98    0.4889848
 x =  0.763932 | f(x) =     40129.15  |       1621.843     38506.82    0.4912867
 x =  0.758239 | f(x) =     40130.73  |       1622.982     38507.26    0.4911914
 x =  0.854102 | f(x) =     40130.59  |       1629.589      38500.5    0.4928555
====================== step 8/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     40131.86  |       1624.501     38506.87    0.4912867
 x =         1 | f(x) =     39672.04  |       1494.393      38177.1    0.5404335
====================== step 9/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     39669.91  |       1492.656     38176.71    0.5404335
 x =         1 | f(x) =     39036.52  |       1397.035     37638.85    0.6393392
====================== step 10/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      39035.7  |       1396.818     37638.25    0.6393392
 x =         1 | f(x) =     38160.75  |       1434.238     36725.68    0.8373965
====================== step 11/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     38179.53  |       1453.779     36724.91    0.8373965
 x =         1 | f(x) =     38018.08  |       1362.899     36654.32    0.8555446
 x =  0.381966 | f(x) =      38006.1  |       1307.638     36697.62    0.8434183
 x =  0.618034 | f(x) =     37998.93  |       1317.255     36680.83    0.8476997
 x =  0.763932 | f(x) =     38004.57  |       1333.041     36670.68    0.8505411
 x =  0.584017 | f(x) =     38003.78  |       1319.576     36683.36    0.8470667
 x =  0.671791 | f(x) =     38003.38  |       1325.402     36677.13    0.8487227
====================== step 12/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     38003.23  |       1321.449     36680.93    0.8476997
 x =         1 | f(x) =     37727.49  |       1293.449     36433.13    0.9076876
 x =  0.381966 | f(x) =     37869.24  |       1283.536     36584.84    0.8699897
 x =  0.618034 | f(x) =     37802.75  |       1274.511     36527.36    0.8841192
 x =  0.763932 | f(x) =     37768.11  |       1276.053     36491.17    0.8930184
 x =  0.854102 | f(x) =     37752.74  |       1283.039     36468.81    0.8985822
 x =   0.90983 | f(x) =     37746.89  |       1290.972     36455.01    0.9020451
====================== step 13/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37738.53  |       1304.491     36433.13    0.9076876
 x =         1 | f(x) =     37608.99  |       1280.695     36327.36    0.9346133
 x =  0.381966 | f(x) =     37641.46  |       1248.416     36392.13    0.9173317
 x =  0.618034 | f(x) =     37620.76  |        1252.51     36367.33     0.923688
 x =  0.763932 | f(x) =     37614.37  |       1261.422     36352.02    0.9277676
 x =  0.881827 | f(x) =     37612.66  |       1272.045     36339.69    0.9311486
 x =  0.887712 | f(x) =     37615.16  |       1275.182     36339.04    0.9313194
====================== step 14/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37613.46  |       1285.195     36327.33    0.9346133
 x =         1 | f(x) =     37355.17  |       1208.508     36145.68    0.9832389
 x =  0.381966 | f(x) =     37500.75  |       1242.849     36256.94    0.9526516
 x =  0.618034 | f(x) =     37442.28  |       1226.401     36214.91    0.9641313
 x =  0.763932 | f(x) =      37405.8  |       1216.483     36188.34    0.9713527
 x =  0.854102 | f(x) =     37384.97  |       1212.095      36171.9    0.9758642
 x =   0.90983 | f(x) =     37373.35  |       1210.619     36161.75    0.9786708
====================== step 15/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     37356.61  |       1209.966     36145.66    0.9832389
 x =         1 | f(x) =     36613.19  |       1249.983     35361.98     1.224813
====================== step 16/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     36623.88  |        1261.34     35361.31     1.224813
 x =         1 | f(x) =     36401.35  |       1164.393      35235.7     1.266538
 x =  0.381966 | f(x) =     36489.07  |       1175.562     35312.27     1.239401
 x =  0.618034 | f(x) =     36453.02  |       1168.245     35283.53     1.249251
 x =  0.763932 | f(x) =     36430.52  |       1164.073     35265.19     1.255657
 x =  0.854102 | f(x) =     36417.31  |       1162.253      35253.8     1.259738
 x =   0.90983 | f(x) =     36409.76  |       1161.742     35246.75     1.262306
====================== step 17/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     36399.92  |       1162.988     35235.67     1.266538
 x =         1 | f(x) =     36081.57  |       1104.425     34975.79     1.355818
 x =  0.381966 | f(x) =     36265.44  |       1130.355     35133.78     1.300359
 x =  0.618034 | f(x) =     36193.78  |        1118.27     35074.19     1.321301
 x =  0.763932 | f(x) =     36149.64  |       1111.819     35036.49     1.334295
 x =  0.854102 | f(x) =     36123.81  |       1109.421     35013.05     1.342444
 x =   0.90983 | f(x) =      36108.8  |       1108.926     34998.53     1.347525
====================== step 18/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      36085.3  |        1108.29     34975.65     1.355818
 x =         1 | f(x) =     35861.04  |       1112.461     34747.14     1.439384
 x =  0.381966 | f(x) =     35973.47  |       1088.485      34883.6      1.38831
 x =  0.618034 | f(x) =     35923.54  |       1091.585     34830.55     1.408119
 x =  0.763932 | f(x) =     35898.04  |       1098.771     34797.85     1.420145
 x =  0.854102 | f(x) =     35885.14  |       1105.568     34778.14     1.427447
 x =   0.90983 | f(x) =     35878.15  |       1110.654     34766.06     1.431986
====================== step 19/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      35865.5  |       1117.088     34746.98     1.439384
 x =         1 | f(x) =     35691.97  |       1044.544     34645.95     1.478277
 x =  0.381966 | f(x) =     35777.36  |       1070.548     34705.35     1.454006
 x =  0.618034 | f(x) =     35745.64  |       1059.757     34684.42     1.463117
 x =  0.763932 | f(x) =     35722.42  |       1051.185     34669.77     1.468843
 x =  0.854102 | f(x) =     35708.98  |       1046.983     34660.53      1.47242
 x =   0.90983 | f(x) =     35701.67  |       1045.394      34654.8     1.474647
====================== step 20/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35692.21  |        1044.82     34645.91     1.478277
 x =         1 | f(x) =     35217.83  |       1046.743     34169.41     1.677241
====================== step 21/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35220.09  |       1049.391     34169.02     1.677241
 x =         1 | f(x) =     35067.96  |       992.6728     34073.57     1.717358
 x =  0.381966 | f(x) =     35136.92  |        1009.81     34125.41     1.692094
 x =  0.618034 | f(x) =     35110.19  |       1001.714     34106.77     1.701565
 x =  0.763932 | f(x) =     35091.26  |       996.0861     34093.46     1.707529
 x =  0.854102 | f(x) =     35081.08  |       994.0872     34085.28     1.711257
 x =   0.90983 | f(x) =      35076.1  |       994.0574     34080.33     1.713578
====================== step 22/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     35069.87  |        995.247     34072.91     1.717358
 x =         1 | f(x) =     34937.84  |       1020.937        33915      1.90029
 x =  0.381966 | f(x) =     34962.83  |       987.2311     33973.82     1.785839
 x =  0.618034 | f(x) =     34923.39  |       993.1615      33928.4     1.830988
 x =  0.763932 | f(x) =     34933.83  |       1002.578     33929.39     1.858955
 x =   0.63372 | f(x) =     34921.24  |       995.8724     33923.53     1.834066
 x =  0.668711 | f(x) =     34927.57  |       996.8291      33928.9     1.840966
====================== step 23/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      34922.2  |       995.6929     33924.67     1.834066
 x =         1 | f(x) =     34842.48  |       997.9163     33842.73     1.833677
 x =  0.381966 | f(x) =     34837.03  |       968.5171     33866.68     1.832157
 x =  0.618034 | f(x) =     34790.82  |       967.7175     33821.27      1.83186
 x =  0.763932 | f(x) =     34805.49  |       976.4819     33827.17     1.832178
 x =  0.626188 | f(x) =     34792.58  |       969.2797     33821.47     1.831865
 x =  0.527864 | f(x) =     34811.48  |       967.3939     33842.26     1.831895
====================== step 24/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34790.11  |       967.7752      33820.5      1.83186
 x =         1 | f(x) =     34566.78  |       1052.886      33511.9       2.0022
 x =  0.381966 | f(x) =     34665.54  |       983.5118     33680.14     1.895133
 x =  0.618034 | f(x) =     34623.62  |       1007.223     33614.46     1.935621
 x =  0.763932 | f(x) =     34602.07  |       1024.178     33575.93     1.960962
 x =  0.854102 | f(x) =     34591.82  |       1037.857     33551.98     1.976714
 x =   0.90983 | f(x) =     34586.29  |       1047.223     33537.09      1.98636
====================== step 25/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =      34574.1  |       1059.303     33512.79       2.0022
 x =         1 | f(x) =     34405.89  |       969.5796     33434.27     2.039691
 x =  0.381966 | f(x) =     34489.79  |       1013.304     33474.47     2.016186
 x =  0.618034 | f(x) =     34465.94  |       1001.764     33462.15     2.025087
 x =  0.763932 | f(x) =     34442.25  |       989.0345     33451.19       2.0306
 x =  0.854102 | f(x) =     34426.12  |       979.8304     33444.26     2.034047
 x =   0.90983 | f(x) =      34415.9  |       973.7961     33440.06     2.036193
====================== step 26/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34402.24  |        966.073     33434.13     2.039691
 x =         1 | f(x) =     34305.54  |       945.7078     33357.76     2.076387
 x =  0.381966 | f(x) =      34339.7  |       934.8917     33402.76     2.053233
 x =  0.618034 | f(x) =     34319.84  |       930.8938     33386.89     2.061895
 x =  0.763932 | f(x) =     34310.68  |       932.7847     33375.83     2.067361
 x =  0.854102 | f(x) =     34309.39  |       938.5088     33368.81     2.070782
 x =  0.843757 | f(x) =     34311.97  |       940.6153     33369.29     2.070388
====================== step 27/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34314.13  |       954.2089     33357.84     2.076387
 x =         1 | f(x) =     34266.13  |       963.9261      33300.1     2.103467
 x =  0.381966 | f(x) =     34265.54  |       929.2117     33334.24     2.086236
 x =  0.618034 | f(x) =     34259.68  |       935.5789     33322.01      2.09264
 x =  0.763932 | f(x) =     34260.64  |       944.8733     33313.67     2.096718
 x =  0.650891 | f(x) =     34261.48  |       939.7097     33319.67      2.09355
 x =  0.527864 | f(x) =     34261.54  |       932.7804     33326.67     2.090166
====================== step 28/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34259.92  |       935.9462     33321.88      2.09264
 x =         1 | f(x) =     34204.14  |       991.9347     33210.06     2.148492
 x =  0.381966 | f(x) =     34204.97  |       925.0187     33277.84     2.113644
 x =  0.618034 | f(x) =      34186.4  |       930.8776     33253.39     2.126697
 x =  0.763932 | f(x) =     34186.01  |       947.2238     33236.65     2.134924
 x =  0.697656 | f(x) =     34190.77  |       946.0807     33242.56     2.131172
 x =  0.854102 | f(x) =     34195.61  |       967.0848     33226.39     2.140069
====================== step 29/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34196.94  |       959.8431     33234.96     2.134924
 x =         1 | f(x) =     34150.66  |       956.0945     33192.41     2.155747
 x =  0.381966 | f(x) =     34140.53  |       920.8301     33217.56       2.1424
 x =  0.618034 | f(x) =     34138.43  |       927.5063     33208.78     2.147316
 x =  0.763932 | f(x) =     34141.79  |       937.0807     33202.56     2.150466
 x =  0.553185 | f(x) =     34139.38  |        926.303     33210.94     2.145943
 x =  0.673762 | f(x) =     34139.87  |        931.445     33206.28     2.148509
====================== step 30/30 ===============================
 x =         0 |    computing velocities
   computing adjoint
   saving results
f(x) =     34139.52  |        928.952     33208.42     2.147316
 x =         1 | f(x) =     34093.73  |       988.6171      33102.9     2.204941
 x =  0.381966 | f(x) =     34087.13  |       918.1906     33166.77     2.168707
 x =  0.618034 | f(x) =     34071.36  |       925.0287     33144.14     2.182308
 x =  0.763932 | f(x) =     34072.99  |       942.5368     33128.27     2.190868
 x =  0.663504 | f(x) =     34076.58  |        937.599      33136.8     2.184963
 x =  0.527864 | f(x) =     34079.02  |       926.1743     33150.66     2.177077
   preparing final solution
   computing new velocity
write lock file:

   FemModel initialization elapsed time:   0.017748
   Total Core solution elapsed time:       15.8137
   Linear solver elapsed time:             10.13   (64%)

   Total elapsed time: 0 hrs 0 min 15 sec
loading results from cluster
   Step 4: Transient run
checking model consistency
marshalling file /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-13-12-64101/SeaRISEgreenland.bin
launching solution sequence

───────────────────────────────────────────────────────────────────
Ice-sheet and Sea-level System Model (ISSM) version 2026.2
          GitHub: <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>
   Documentation: <a href='https://issmteam.github.io/ISSM-Documentation/'>https://issmteam.github.io/ISSM-Documentation/</a>
───────────────────────────────────────────────────────────────────
   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:
   Updating Mmes
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: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.07862e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   41.5975 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        65.5735 &gt; 10 %
   Convergence criterion: max(du)                 0.00018393
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.27196e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   4.32563 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        7.5658 &lt; 10 %
   Convergence criterion: max(du)                 1.07212e-05
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.1709e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   1.0665 &gt; 1 %
   Convergence criterion: norm(du)/norm(u)        2.94217 &lt; 10 %
   Convergence criterion: max(du)                 5.896e-06
   Input updates from constant
   Updating inputs from solution for StressbalanceAnalysis
   number of unstable constraints: 0
   Allocating matrices (Kff stiffness matrix size: 7416 x 7416)
   Assembling matrices
   Create nodal constraints
   Dirichlet lifting applied to load vector
   Solving matrix system

   solver residue: norm(KU-F)/norm(F)=2.29975e-16
   Merging solution vector from fset to gset
   checking convergence
   mechanical equilibrium convergence criterion   0.31678 &lt; 1 %
   Convergence criterion: norm(du)/norm(u)        1.23578 &lt; 10 %
   Convergence criterion: max(du)                 2.53123e-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
   Updating constraints and active domain of analysis MasstransportAnalysis for time: 0.2
   Allocating matrices (Kff stiffness matrix size: 3708 x 3708)
   Assembling matrices

[0] ??? Error using ==&gt; 
[1] ??? Error using ==&gt; ./analyses/MasstransportAnalysis.cpp:720
[1] CreatePVectorCG./analyses/MasstransportAnalysis.cpp:720
[0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

 error message: Assertion "connectedtoocean_input" failed, please report bug at <a href='https://github.com/ISSMteam/ISSM/'>https://github.com/ISSMteam/ISSM/</a>

loading results from cluster
[Warning: Could not copy
/Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-06-30-2026-05-13-12-64101//SeaRISEgreenland.outbin] 
[&gt; In issmscpin (line 22)
In generic/Download (line 328)
In loadresultsfromcluster (line 45)
In solve (line 210)
In runme (line 111)] 
Error using loadresultsfromdisk

=========================================================================
   Binary file SeaRISEgreenland.outbin not found

   This typically results from an error encountered during the simulation
   Please check for error messages above or in the outlog
=========================================================================


Error in loadresultsfromcluster (line 48)
md=loadresultsfromdisk(md,d.miscellaneous.name '.outbin']);

Error in solve (line 210)
md=loadresultsfromcluster(md);

Error in runme (line 111)
	md=solve(md,'Transient');FAILURE
finished: Greenland
-----------End of matlab_log.log-----------
Build step 'Execute shell' marked build as failure
Recording test results
Finished: FAILURE