0.0false22200ISSM Test Suite0.00Example-AMR ERRORfalsePASSED +++ Running case: Example-AMR +++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog | < M A T L A B (R) > | 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 | Cons ...[truncated 2068 chars]... y 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 2ISSM Test Suite0.0Script Error1376Example-AMR FAILUREfalseFAILED +++ Running case: Example-AMR +++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog | < M A T L A B (R) > | 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: https://github.com/ISSMteam/ISSM/ | Documentation: https://issmteam.github.io/ISSM-Documentation/ | ─────────────────────────────────────────────────────────────────── | 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 ==> ./analyses/MasstransportAnalysis.cpp:720 | [0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at https://github.com/ISSMteam/ISSM/ | [1] ??? Error using ==> ./analyses/MasstransportAnalysis.cpp:720 | [1] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at https://github.com/ISSMteam/ISSM/ | 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] | [> 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 0ISSM Test Suite0.00Example-EsaGRACE ERRORfalsePASSED +++ Running case: Example-EsaGRACE +++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog | < M A T L A B (R) > | 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 c ...[truncated 3663 chars]... :-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 0ISSM Test Suite0.00Example-EsaGRACE FAILUREfalsePASSED +++ Running case: Example-EsaGRACE +++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog | < M A T L A B (R) > | 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 c ...[truncated 3663 chars]... :-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 0ISSM Test Suite0.00Example-EsaWahr ERRORfalsePASSED +++ Running case: Example-EsaWahr +++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog | < M A T L A B (R) > | 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 ...[truncated 2200 chars]... mps_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 0ISSM Test Suite0.00Example-EsaWahr FAILUREfalsePASSED +++ Running case: Example-EsaWahr +++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog | < M A T L A B (R) > | 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 ...[truncated 2200 chars]... mps_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 0ISSM Test Suite0.00Example-Greenland ERRORfalsePASSED +++ Running case: Example-Greenland +++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog | < M A T L A B (R) > | 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 creatio ...[truncated 24208 chars]... ISEgreenland.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 2ISSM Test Suite0.0Script Error1376Example-Greenland FAILUREfalseFAILED +++ Running case: Example-Greenland +++ working dir: /Users/jenkins/workspace/macOS-Silicon-Examples/nightlylog | < M A T L A B (R) > | 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] | [> 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: https://github.com/ISSMteam/ISSM/ | Documentation: https://issmteam.github.io/ISSM-Documentation/ | ─────────────────────────────────────────────────────────────────── | 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: https://github.com/ISSMteam/ISSM/ | Documentation: https://issmteam.github.io/ISSM-Documentation/ | ─────────────────────────────────────────────────────────────────── | 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 > 1 % | Convergence criterion: norm(du)/norm(u) 65.5735 > 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 > 1 % | Convergence criterion: norm(du)/norm(u) 7.5658 < 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 > 1 % | Convergence criterion: norm(du)/norm(u) 2.94217 < 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 < 1 % | Convergence criterion: norm(du)/norm(u) 1.23578 < 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 ==> | [1] ??? Error using ==> ./analyses/MasstransportAnalysis.cpp:720 | [1] CreatePVectorCG./analyses/MasstransportAnalysis.cpp:720 | [0] CreatePVectorCG error message: Assertion "connectedtoocean_input" failed, please report bug at https://github.com/ISSMteam/ISSM/ | error message: Assertion "connectedtoocean_input" failed, please report bug at https://github.com/ISSMteam/ISSM/ | 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] | [> 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 0.0ISSM Test Suite0externalpackages0.00autotoolsfalsePASSED0externalpackages0.00cmakefalsePASSED0externalpackages0.00petscfalsePASSED0externalpackages0.00boostfalsePASSED0externalpackages0.00dakotafalsePASSED0externalpackages0.00chacofalsePASSED0externalpackages0.00curlfalsePASSED0externalpackages0.00hdf5falsePASSED0externalpackages0.00netcdffalsePASSED0externalpackages0.00projfalsePASSED0externalpackages0.00gdalfalsePASSED0externalpackages0.00gshhgfalsePASSED0externalpackages0.00gmtfalsePASSED0externalpackages0.00gmshfalsePASSED0externalpackages0.00trianglefalsePASSED0externalpackages0.00shell2junitfalsePASSED0.0(external.xml)