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Regression
ISSM Test Suite.Example-IceBridge FAILURE
Failing for the past 1 build
(Since Failed )
Error Message
Script Error
Standard Output
+++ Running case: Example-IceBridge
+++ 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 = 8321
| Step 2: Parameterization
| Loading SeaRISE data from NetCDF
| Interpolating surface and bedrock
| Constructing thickness
| reading IceBridge Jakobshavn bedrock
| Interpolating velocities
| Interpolating temperatures
| Interpolating surface mass balance
| Construct basal friction parameters
| Construct ice rheological properties
| Set other boundary conditions
| Set geothermal heat flux
| Set Pressure
| Single point constraints
| Step 3: Control method friction
| checking model consistency
| INFO: the outlog will look better if only md.verbose.control is turned on
| marshalling file SeaRISEgreenland.bin
| uploading input file and queuing script
| launching solution sequence on remote cluster
| Ice-sheet and Sea-level System Model (ISSM) version 4.24
| (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/)
| call computational core:
| preparing initial solution
| x | Cost function f(x) | List of contributions
| ====================== step 1/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 28099.65 | 5964.341 22135.31 5.547563e-32
| x = 1 | f(x) = 18898.66 | 3303.629 15595 0.02942783
| ====================== step 2/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 18897.3 | 3302.652 15594.62 0.02942783
| x = 1 | f(x) = 12003.97 | 1757.114 10246.64 0.215836
| ====================== step 3/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 12001.99 | 1755.251 10246.52 0.215836
| x = 1 | f(x) = 9834.379 | 1516.437 8317.475 0.4677579
| ====================== step 4/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 9941.658 | 1624.781 8316.409 0.4677579
| x = 1 | f(x) = 9520.299 | 1269.104 8250.713 0.4819272
| ====================== step 5/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 9518.245 | 1267.183 8250.58 0.4819272
| x = 1 | f(x) = 8300.647 | 1098.174 7201.662 0.8113603
| ====================== step 6/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 8308.123 | 1106.877 7200.434 0.8113603
| x = 1 | f(x) = 8046.115 | 1018.378 7026.846 0.8912152
| ====================== step 7/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 8043.913 | 1016.424 7026.598 0.8912152
| x = 1 | f(x) = 7658.357 | 974.9317 6682.361 1.063805
| ====================== step 8/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 7673.925 | 991.107 6681.755 1.063805
| x = 1 | f(x) = 7541.901 | 920.1304 6620.671 1.098837
| ====================== step 9/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 7541.472 | 919.8027 6620.57 1.098837
| x = 1 | f(x) = 7297.597 | 887.9993 6408.364 1.233838
| ====================== step 10/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 7302.935 | 893.7853 6407.915 1.233838
| x = 1 | f(x) = 7203.666 | 873.9762 6328.393 1.29762
| ====================== step 11/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 7203.386 | 873.8212 6328.268 1.29762
| x = 1 | f(x) = 6964.726 | 808.053 6155.239 1.434543
| ====================== step 12/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6966.147 | 809.9131 6154.8 1.434543
| x = 1 | f(x) = 6849.022 | 835.4494 6011.981 1.591536
| ====================== step 13/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6850.929 | 837.6503 6011.687 1.591536
| x = 1 | f(x) = 6710.216 | 792.7064 5915.831 1.678639
| ====================== step 14/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6710.191 | 792.9136 5915.598 1.678639
| x = 1 | f(x) = 6603.655 | 777.4382 5824.426 1.791212
| ====================== step 15/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6620.428 | 794.5635 5824.073 1.791212
| x = 1 | f(x) = 6544.301 | 740.0425 5802.447 1.811805
| ====================== step 16/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6544.313 | 740.0666 5802.435 1.811805
| x = 1 | f(x) = 6466.957 | 759.8522 5705.169 1.936411
| ====================== step 17/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6473.755 | 767.1069 5704.712 1.936411
| x = 1 | f(x) = 6405.091 | 722.1951 5680.929 1.966967
| ====================== step 18/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6405.15 | 722.358 5680.825 1.966967
| x = 1 | f(x) = 6323.404 | 718.2838 5603.045 2.074999
| ====================== step 19/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6328.101 | 723.4362 5602.59 2.074999
| x = 1 | f(x) = 6298.544 | 724.6054 5571.8 2.138121
| x = 0.381966 | f(x) = 6287.667 | 696.1168 5589.452 2.09846
| x = 0.618034 | f(x) = 6287.639 | 702.0602 5583.466 2.113179
| x = 0.763932 | f(x) = 6290.938 | 709.6453 5579.17 2.122488
| x = 0.500997 | f(x) = 6287.276 | 698.5885 5586.582 2.105906
| x = 0.502191 | f(x) = 6286.872 | 697.9427 5586.823 2.105979
| ====================== step 20/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6286.765 | 697.7933 5586.866 2.105979
| x = 1 | f(x) = 6225.106 | 690.7718 5532.149 2.186132
| x = 0.381966 | f(x) = 6259.265 | 692.7755 5564.354 2.135805
| x = 0.618034 | f(x) = 6246.042 | 691.86 5552.028 2.154728
| x = 0.763932 | f(x) = 6240.561 | 694.6235 5543.771 2.166606
| x = 0.854102 | f(x) = 6239.399 | 698.5901 5538.635 2.174025
| x = 0.870673 | f(x) = 6240.866 | 701.1009 5537.59 2.175395
| ====================== step 21/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6239.884 | 706.9366 5530.762 2.186132
| x = 1 | f(x) = 6213.306 | 708.1508 5502.916 2.239583
| x = 0.381966 | f(x) = 6205.046 | 684.9774 5517.863 2.205519
| x = 0.618034 | f(x) = 6204.097 | 690.0236 5511.856 2.218136
| x = 0.763932 | f(x) = 6206.597 | 695.9955 5508.375 2.226183
| x = 0.536296 | f(x) = 6204.194 | 688.0837 5513.896 2.213711
| x = 0.609267 | f(x) = 6204.182 | 689.8934 5512.071 2.217659
| ====================== step 22/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6204.348 | 690.2693 5511.86 2.218136
| x = 1 | f(x) = 6173.86 | 707.6781 5463.848 2.334134
| x = 0.381966 | f(x) = 6174.956 | 682.5855 5490.109 2.261666
| x = 0.618034 | f(x) = 6166.053 | 683.7515 5480.013 2.288809
| x = 0.763932 | f(x) = 6167.569 | 691.6234 5473.64 2.305919
| x = 0.649732 | f(x) = 6169.152 | 688.8794 5477.98 2.292483
| x = 0.527864 | f(x) = 6169.729 | 683.8649 5483.585 2.278491
| ====================== step 23/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6167.13 | 685.0362 5479.805 2.288809
| x = 1 | f(x) = 6142.294 | 723.7016 5416.182 2.410336
| x = 0.381966 | f(x) = 6141.311 | 686.6776 5452.3 2.332863
| x = 0.618034 | f(x) = 6136.867 | 695.6314 5438.875 2.361517
| x = 0.763932 | f(x) = 6138.497 | 706.0796 5430.038 2.37981
| x = 0.619845 | f(x) = 6138.57 | 697.8434 5438.365 2.361741
| x = 0.527864 | f(x) = 6137.671 | 691.3047 5444.016 2.350433
| ====================== step 24/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6137.113 | 695.941 5438.811 2.361517
| x = 1 | f(x) = 6082.133 | 684.5019 5395.185 2.445793
| x = 0.381966 | f(x) = 6093.998 | 671.5106 5420.096 2.392336
| x = 0.618034 | f(x) = 6081.11 | 667.6384 5411.06 2.412212
| x = 0.763932 | f(x) = 6076.907 | 669.559 5404.923 2.424831
| x = 0.904365 | f(x) = 6079.529 | 678.0003 5399.091 2.43722
| x = 0.777851 | f(x) = 6079.773 | 673.4149 5403.932 2.426048
| ====================== step 25/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6079.254 | 672.2179 5404.611 2.424831
| x = 1 | f(x) = 6050.459 | 701.6502 5346.269 2.539351
| x = 0.381966 | f(x) = 6051.059 | 667.8619 5380.729 2.46786
| x = 0.618034 | f(x) = 6049.015 | 677.8956 5368.624 2.494514
| x = 0.763932 | f(x) = 6049.5 | 686.646 5360.342 2.511347
| x = 0.637994 | f(x) = 6049.225 | 679.8739 5366.854 2.496795
| x = 0.527864 | f(x) = 6049.228 | 673.6761 5373.067 2.484282
| ====================== step 26/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6048.981 | 678.0779 5368.409 2.494514
| x = 1 | f(x) = 6036.978 | 703.8007 5330.58 2.596796
| x = 0.381966 | f(x) = 6015.64 | 663.4991 5349.61 2.531663
| x = 0.618034 | f(x) = 6007.986 | 662.8437 5342.586 2.555835
| x = 0.763932 | f(x) = 6013.17 | 672.5415 5338.057 2.571239
| x = 0.591127 | f(x) = 6011.415 | 665.4658 5343.396 2.553032
| x = 0.672145 | f(x) = 6011.199 | 667.7277 5340.91 2.561509
| ====================== step 27/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 6010.945 | 665.8135 5342.575 2.555835
| x = 1 | f(x) = 5997.541 | 699.7999 5295.093 2.64817
| x = 0.381966 | f(x) = 5993.995 | 667.9666 5323.439 2.589231
| x = 0.618034 | f(x) = 5992.28 | 675.5276 5314.142 2.610971
| x = 0.763932 | f(x) = 5994.583 | 684.7243 5307.234 2.624879
| x = 0.560192 | f(x) = 5993.193 | 674.3577 5316.229 2.605555
| x = 0.673762 | f(x) = 5993.516 | 679.517 5311.383 2.61624
| ====================== step 28/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 5993.214 | 676.8801 5313.723 2.610971
| x = 1 | f(x) = 5947.375 | 653.1549 5291.553 2.666473
| x = 0.381966 | f(x) = 5960.654 | 658.6073 5299.416 2.63092
| x = 0.618034 | f(x) = 5953.224 | 654.1282 5296.452 2.644064
| x = 0.763932 | f(x) = 5950.682 | 652.9765 5295.053 2.652429
| x = 0.927961 | f(x) = 5950.923 | 655.2005 5293.06 2.662139
| x = 0.833897 | f(x) = 5951.661 | 654.5442 5294.46 2.656534
| ====================== step 29/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 5953.463 | 658.639 5292.158 2.666473
| x = 1 | f(x) = 5923.712 | 663.964 5257.015 2.732752
| x = 0.381966 | f(x) = 5928.143 | 647.2513 5278.201 2.690827
| x = 0.618034 | f(x) = 5925.934 | 651.6611 5271.567 2.706475
| x = 0.763932 | f(x) = 5924.71 | 655.9647 5266.029 2.716371
| x = 0.854102 | f(x) = 5923.735 | 659.167 5261.846 2.722574
| x = 0.90983 | f(x) = 5921.619 | 661.3252 5257.567 2.726441
| ====================== step 30/30 ===============================
| x = 0 | computing velocities
| computing adjoint
| saving results
| f(x) = 5921.379 | 661.4194 5257.233 2.726441
| x = 1 | f(x) = 5907.691 | 644.747 5260.115 2.829035
| x = 0.381966 | f(x) = 5906.607 | 650.5033 5253.338 2.765293
| x = 0.618034 | f(x) = 5895.816 | 645.9726 5247.051 2.791968
| x = 0.763932 | f(x) = 5898.007 | 644.4055 5250.793 2.809198
| x = 0.643745 | f(x) = 5896.636 | 645.8058 5248.035 2.794988
| x = 0.527864 | f(x) = 5897.877 | 647.5312 5247.564 2.781549
| preparing final solution
| computing new velocity
| write lock file:
| FemModel initialization elapsed time: 0.021321
| Total Core solution elapsed time: 16.1702
| Linear solver elapsed time: 10.5268 (65%)
| Total elapsed time: 0 hrs 0 min 16 sec
| loading results from cluster
| Step 4: Transient run
| checking model consistency
| marshalling file SeaRISEgreenland.bin
| uploading input file and queuing script
| launching solution sequence on remote cluster
| Ice-sheet and Sea-level System Model (ISSM) version 4.24
| (website: http://issm.jpl.nasa.gov forum: https://issm.ess.uci.edu/forum/)
| Input updates from constant
| Input updates from constant
| Renumbering degrees of freedom
| Renumbering degrees of freedom
| Renumbering degrees of freedom
| Renumbering degrees of freedom
| Renumbering degrees of freedom
| Renumbering degrees of freedom
| call computational core:
| Updating Mmes
| [0] ??? Error using ==> ./classes/Params/Parameters.cpp:279
| [0] FindParam error message: Parameter SolidearthSettingsHoriz not set
| [1] ??? Error using ==> ./classes/Params/Parameters.cpp:279
| [1] FindParam error message: Parameter SolidearthSettingsHoriz not set
| loading results from cluster
| cp: /Users/jenkins/workspace/macOS-Silicon-Examples//execution/SeaRISEgreenland-11-29-2024-14-00-59-88680//SeaRISEgreenland.outbin: No such file or directory
| [Warning:
| ============================================================
| Binary file SeaRISEgreenland.outbin not found!
| This typically happens when the run crashed.
| Please check for error messages above or in the outlog
| ============================================================
| ]
| [> In loadresultsfromdisk (line 16)
| In loadresultsfromcluster (line 50)
| In solve (line 180)
| In runme (line 119)]
| Step 5: Plotting
| Unrecognized field name "TransientSolution".
| Error in runmeFAILURE
+++ exit code: 0